Query psy10373
Match_columns 215
No_of_seqs 297 out of 1745
Neff 8.5
Searched_HMMs 46136
Date Fri Aug 16 16:13:29 2013
Command hhsearch -i /work/01045/syshi/Psyhhblits/psy10373.a3m -d /work/01045/syshi/HHdatabase/Cdd.hhm -o /work/01045/syshi/hhsearch_cdd/10373hhsearch_cdd -cpu 12 -v 0
No Hit Prob E-value P-value Score SS Cols Query HMM Template HMM
1 PLN02473 glutathione S-transfe 99.8 9.5E-22 2.1E-26 158.6 3.0 152 45-198 4-171 (214)
2 PLN02395 glutathione S-transfe 99.8 6.9E-22 1.5E-26 159.4 2.2 147 50-198 8-170 (215)
3 KOG0867|consensus 99.8 1.1E-20 2.3E-25 154.1 6.9 145 52-198 11-169 (226)
4 COG0625 Gst Glutathione S-tran 99.8 1.9E-21 4.1E-26 156.7 2.2 151 45-199 2-168 (211)
5 PRK10542 glutathionine S-trans 99.8 2E-21 4.3E-26 155.1 2.0 142 50-198 6-160 (201)
6 PRK13972 GSH-dependent disulfi 99.8 5E-21 1.1E-25 154.7 4.3 142 51-198 8-168 (215)
7 PRK09481 sspA stringent starva 99.8 1.4E-21 2.9E-26 157.7 -0.7 147 44-199 11-164 (211)
8 KOG0868|consensus 99.8 3.2E-21 7E-26 147.1 1.5 152 43-199 5-171 (217)
9 PRK15113 glutathione S-transfe 99.8 2.4E-20 5.3E-25 150.7 5.3 144 53-199 17-174 (214)
10 PRK11752 putative S-transferas 99.8 1.2E-19 2.6E-24 151.2 3.0 148 44-198 45-214 (264)
11 PRK10357 putative glutathione 99.8 8.1E-20 1.7E-24 146.1 1.5 149 45-198 2-160 (202)
12 TIGR01262 maiA maleylacetoacet 99.7 4.1E-19 8.9E-24 142.6 1.8 145 51-198 7-167 (210)
13 PRK10387 glutaredoxin 2; Provi 99.7 8.3E-18 1.8E-22 135.0 0.1 146 51-206 8-183 (210)
14 KOG0406|consensus 99.6 2.5E-16 5.5E-21 126.7 2.7 139 54-199 18-167 (231)
15 PTZ00057 glutathione s-transfe 99.6 2.2E-17 4.8E-22 132.6 -3.4 140 44-198 5-161 (205)
16 PLN02378 glutathione S-transfe 99.6 6.2E-16 1.3E-20 124.9 3.7 128 53-199 21-157 (213)
17 TIGR02182 GRXB Glutaredoxin, G 99.5 1.5E-15 3.2E-20 122.4 2.3 148 49-207 5-183 (209)
18 PLN02817 glutathione dehydroge 99.5 5.9E-15 1.3E-19 123.0 4.0 127 54-199 75-209 (265)
19 TIGR00862 O-ClC intracellular 99.5 8.8E-15 1.9E-19 119.8 3.0 131 54-199 21-178 (236)
20 PLN02907 glutamate-tRNA ligase 99.5 2.1E-14 4.5E-19 133.7 3.7 116 48-197 6-125 (722)
21 KOG1695|consensus 99.4 8.3E-14 1.8E-18 111.2 0.3 139 53-196 13-159 (206)
22 cd03075 GST_N_Mu GST_N family, 99.1 1.3E-11 2.8E-16 85.0 0.1 60 51-112 8-82 (82)
23 cd03057 GST_N_Beta GST_N famil 99.0 7.8E-11 1.7E-15 79.7 1.9 62 50-113 6-77 (77)
24 cd03050 GST_N_Theta GST_N fami 99.0 3.3E-11 7.1E-16 81.4 -0.1 65 46-112 3-76 (76)
25 cd03046 GST_N_GTT1_like GST_N 99.0 8.2E-11 1.8E-15 79.2 1.3 62 50-113 6-76 (76)
26 cd03048 GST_N_Ure2p_like GST_N 99.0 1.2E-10 2.5E-15 79.7 1.5 63 50-114 7-81 (81)
27 cd03045 GST_N_Delta_Epsilon GS 99.0 5.9E-11 1.3E-15 79.5 -0.6 63 46-110 3-74 (74)
28 cd03052 GST_N_GDAP1 GST_N fami 99.0 5.8E-11 1.3E-15 79.8 -0.7 62 46-109 3-73 (73)
29 cd03077 GST_N_Alpha GST_N fami 99.0 5.4E-11 1.2E-15 81.2 -0.9 61 51-113 9-77 (79)
30 PF02798 GST_N: Glutathione S- 99.0 2.3E-10 4.9E-15 77.5 2.0 56 53-110 10-76 (76)
31 cd03038 GST_N_etherase_LigE GS 98.9 5.4E-10 1.2E-14 76.9 2.5 60 52-113 16-84 (84)
32 cd03079 GST_N_Metaxin2 GST_N f 98.9 5.9E-10 1.3E-14 74.9 1.6 55 53-111 18-74 (74)
33 cd03053 GST_N_Phi GST_N family 98.8 3.3E-10 7.1E-15 76.3 -0.7 64 46-111 4-76 (76)
34 cd03061 GST_N_CLIC GST_N famil 98.8 1.5E-09 3.3E-14 75.8 2.1 61 54-114 22-88 (91)
35 cd03047 GST_N_2 GST_N family, 98.8 5.9E-10 1.3E-14 74.6 -0.6 57 51-109 8-73 (73)
36 cd03044 GST_N_EF1Bgamma GST_N 98.8 1.2E-09 2.6E-14 73.6 0.8 61 48-110 5-74 (75)
37 KOG4420|consensus 98.8 2.6E-09 5.5E-14 86.7 2.5 86 42-129 25-120 (325)
38 cd03076 GST_N_Pi GST_N family, 98.8 3.8E-10 8.3E-15 75.7 -2.3 58 51-110 9-72 (73)
39 cd03042 GST_N_Zeta GST_N famil 98.8 1.1E-09 2.4E-14 73.0 -0.3 59 49-109 6-73 (73)
40 cd03080 GST_N_Metaxin_like GST 98.8 3E-09 6.5E-14 71.6 1.8 54 55-113 20-75 (75)
41 cd03058 GST_N_Tau GST_N family 98.7 8.4E-10 1.8E-14 74.0 -1.5 64 47-112 4-74 (74)
42 PF13417 GST_N_3: Glutathione 98.7 1.9E-09 4.2E-14 72.6 -0.1 60 53-114 8-73 (75)
43 cd03056 GST_N_4 GST_N family, 98.7 1.9E-09 4.2E-14 71.7 -0.8 57 51-109 8-73 (73)
44 cd03041 GST_N_2GST_N GST_N fam 98.7 2.3E-09 4.9E-14 72.7 -0.6 58 51-112 9-77 (77)
45 cd03059 GST_N_SspA GST_N famil 98.7 1.4E-09 3E-14 72.5 -1.9 58 53-112 10-73 (73)
46 cd03043 GST_N_1 GST_N family, 98.7 3.7E-09 8.1E-14 70.9 -0.1 59 49-109 7-73 (73)
47 cd03039 GST_N_Sigma_like GST_N 98.7 1.3E-09 2.9E-14 72.7 -2.6 58 51-110 8-72 (72)
48 cd03189 GST_C_GTT1_like GST_C 98.6 4.9E-09 1.1E-13 76.5 -0.2 77 120-197 2-89 (119)
49 cd03051 GST_N_GTT2_like GST_N 98.6 6.2E-09 1.3E-13 69.3 -0.5 57 51-109 8-74 (74)
50 cd03196 GST_C_5 GST_C family, 98.6 2.9E-08 6.3E-13 72.5 1.9 75 121-198 2-77 (115)
51 cd03037 GST_N_GRX2 GST_N famil 98.5 7.7E-09 1.7E-13 68.7 -1.2 64 45-110 2-71 (71)
52 cd03049 GST_N_3 GST_N family, 98.5 9.7E-09 2.1E-13 68.6 -1.3 62 46-109 3-73 (73)
53 PF13409 GST_N_2: Glutathione 98.5 3.9E-08 8.5E-13 65.4 1.2 53 57-111 7-70 (70)
54 KOG1422|consensus 98.5 7.4E-08 1.6E-12 76.1 2.4 132 53-198 19-162 (221)
55 cd03040 GST_N_mPGES2 GST_N fam 98.4 9.6E-09 2.1E-13 69.3 -3.6 61 50-112 8-76 (77)
56 cd03179 GST_C_1 GST_C family, 98.4 2.1E-07 4.6E-12 66.0 2.6 74 125-198 2-79 (105)
57 cd03055 GST_N_Omega GST_N fami 98.4 3E-08 6.6E-13 69.0 -1.9 64 44-109 19-89 (89)
58 cd03060 GST_N_Omega_like GST_N 98.4 1.7E-07 3.7E-12 62.2 1.5 54 53-108 10-70 (71)
59 cd03054 GST_N_Metaxin GST_N fa 98.3 1.7E-07 3.7E-12 62.4 1.2 53 54-111 18-72 (72)
60 cd03188 GST_C_Beta GST_C famil 98.3 1.7E-07 3.6E-12 67.5 0.7 74 125-198 2-79 (114)
61 cd03186 GST_C_SspA GST_N famil 98.3 1.3E-07 2.8E-12 67.6 -0.4 71 123-199 1-72 (107)
62 cd03180 GST_C_2 GST_C family, 98.3 1.9E-07 4.1E-12 66.7 0.4 74 125-199 2-80 (110)
63 cd03177 GST_C_Delta_Epsilon GS 98.3 2E-07 4.4E-12 67.9 0.3 72 125-198 2-74 (118)
64 cd03182 GST_C_GTT2_like GST_C 98.2 5.1E-07 1.1E-11 65.4 1.9 77 122-198 1-85 (117)
65 cd03200 GST_C_JTV1 GST_C famil 98.2 5.1E-07 1.1E-11 63.8 1.8 70 105-198 1-71 (96)
66 cd03187 GST_C_Phi GST_C family 98.2 3.7E-07 8E-12 66.1 0.9 75 125-199 2-82 (118)
67 cd03052 GST_N_GDAP1 GST_N fami 98.2 8.5E-06 1.8E-10 54.5 7.1 62 154-215 4-65 (73)
68 cd03178 GST_C_Ure2p_like GST_C 98.2 2.1E-07 4.6E-12 67.0 -0.9 72 125-197 1-75 (113)
69 cd03185 GST_C_Tau GST_C family 98.2 3.2E-07 6.9E-12 67.4 -0.2 70 123-198 1-71 (126)
70 cd03191 GST_C_Zeta GST_C famil 98.1 2.3E-07 5E-12 67.8 -2.3 76 123-199 1-83 (121)
71 cd00570 GST_N_family Glutathio 98.0 8.4E-07 1.8E-11 57.4 -0.4 55 53-109 10-71 (71)
72 cd03045 GST_N_Delta_Epsilon GS 98.0 2.7E-05 5.9E-10 51.6 7.0 63 153-215 3-65 (74)
73 KOG0867|consensus 98.0 1.1E-05 2.5E-10 65.7 6.0 64 152-215 4-67 (226)
74 cd03181 GST_C_EFB1gamma GST_C 98.0 1.4E-06 3E-11 63.7 -0.2 72 125-197 1-75 (123)
75 cd03047 GST_N_2 GST_N family, 97.9 5.2E-05 1.1E-09 50.3 7.0 62 154-215 4-65 (73)
76 cd03190 GST_C_ECM4_like GST_C 97.9 3.1E-06 6.6E-11 64.0 -0.0 71 124-199 3-74 (142)
77 cd03050 GST_N_Theta GST_N fami 97.9 8E-05 1.7E-09 49.8 6.9 63 153-215 3-65 (76)
78 cd03195 GST_C_4 GST_C family, 97.8 9.7E-06 2.1E-10 58.9 1.9 75 123-198 1-78 (114)
79 cd03183 GST_C_Theta GST_C fami 97.8 2.6E-06 5.7E-11 62.6 -1.5 74 125-198 1-82 (126)
80 PLN02473 glutathione S-transfe 97.8 8.2E-05 1.8E-09 59.7 7.0 64 152-215 4-67 (214)
81 cd03053 GST_N_Phi GST_N family 97.8 0.00014 3E-09 48.5 6.9 63 153-215 4-66 (76)
82 cd03056 GST_N_4 GST_N family, 97.7 0.00017 3.7E-09 47.4 7.0 62 154-215 4-65 (73)
83 PRK15113 glutathione S-transfe 97.7 0.00011 2.3E-09 59.3 6.7 58 158-215 15-72 (214)
84 cd03203 GST_C_Lambda GST_C fam 97.6 3E-05 6.5E-10 56.8 2.2 65 122-199 1-69 (120)
85 cd03048 GST_N_Ure2p_like GST_N 97.6 0.0003 6.5E-09 47.6 6.7 62 153-215 4-68 (81)
86 cd03051 GST_N_GTT2_like GST_N 97.6 0.0003 6.5E-09 46.3 6.4 63 153-215 3-66 (74)
87 cd03042 GST_N_Zeta GST_N famil 97.6 0.00041 8.9E-09 45.6 7.0 62 154-215 4-65 (73)
88 PF02798 GST_N: Glutathione S- 97.4 0.00043 9.3E-09 46.5 5.8 55 161-215 11-67 (76)
89 PRK09481 sspA stringent starva 97.4 0.00039 8.4E-09 55.8 6.5 62 151-215 11-72 (211)
90 cd00299 GST_C_family Glutathio 97.4 2.6E-05 5.7E-10 54.0 -0.3 68 130-198 2-72 (100)
91 cd03207 GST_C_8 GST_C family, 97.4 1.9E-05 4.1E-10 55.9 -1.1 64 130-198 2-66 (103)
92 cd03057 GST_N_Beta GST_N famil 97.4 0.00066 1.4E-08 45.3 6.4 55 161-215 10-65 (77)
93 PLN02395 glutathione S-transfe 97.4 0.0005 1.1E-08 55.1 6.8 62 153-215 5-66 (215)
94 cd03206 GST_C_7 GST_C family, 97.4 2.1E-05 4.5E-10 55.5 -1.4 68 129-198 1-69 (100)
95 KOG2903|consensus 97.4 7E-05 1.5E-09 61.3 1.5 102 88-196 122-239 (319)
96 COG0435 ECM4 Predicted glutath 97.4 0.00011 2.3E-09 60.7 2.6 101 87-196 127-239 (324)
97 cd03044 GST_N_EF1Bgamma GST_N 97.4 0.00086 1.9E-08 44.7 6.5 60 155-215 5-65 (75)
98 PRK13972 GSH-dependent disulfi 97.4 0.00058 1.3E-08 54.9 6.6 62 153-215 4-72 (215)
99 cd03184 GST_C_Omega GST_C fami 97.3 6.3E-05 1.4E-09 55.3 0.3 67 125-199 2-71 (124)
100 cd03046 GST_N_GTT1_like GST_N 97.3 0.0012 2.7E-08 43.7 6.7 55 161-215 10-64 (76)
101 cd03059 GST_N_SspA GST_N famil 97.3 0.0012 2.6E-08 43.4 6.3 59 154-215 4-62 (73)
102 COG0625 Gst Glutathione S-tran 97.2 0.00096 2.1E-08 53.4 6.4 62 153-215 3-65 (211)
103 cd03076 GST_N_Pi GST_N family, 97.2 0.0008 1.7E-08 44.7 4.7 56 157-215 8-63 (73)
104 cd03041 GST_N_2GST_N GST_N fam 97.1 0.0012 2.5E-08 44.4 5.3 62 152-215 3-66 (77)
105 cd03078 GST_N_Metaxin1_like GS 97.1 0.00024 5.2E-09 47.5 1.7 47 60-111 24-72 (73)
106 cd03058 GST_N_Tau GST_N family 97.1 0.0021 4.5E-08 42.6 6.2 60 153-215 3-63 (74)
107 cd03039 GST_N_Sigma_like GST_N 97.1 0.0011 2.4E-08 43.6 4.6 57 157-215 7-63 (72)
108 PRK11752 putative S-transferas 97.1 0.0016 3.5E-08 54.3 6.4 64 151-215 45-118 (264)
109 PF14497 GST_C_3: Glutathione 97.0 4E-05 8.7E-10 54.0 -3.2 66 122-196 2-71 (99)
110 cd03060 GST_N_Omega_like GST_N 97.0 0.0033 7.3E-08 41.3 6.3 59 154-215 4-63 (71)
111 KOG0868|consensus 97.0 0.00093 2E-08 51.9 4.0 62 154-215 9-71 (217)
112 PRK10542 glutathionine S-trans 97.0 0.0015 3.3E-08 51.7 5.4 55 161-215 10-66 (201)
113 cd03075 GST_N_Mu GST_N family, 97.0 0.0029 6.4E-08 43.0 6.0 56 160-215 10-71 (82)
114 cd03043 GST_N_1 GST_N family, 96.9 0.0048 1E-07 40.9 6.6 57 158-215 9-65 (73)
115 KOG3027|consensus 96.9 0.00032 7E-09 55.6 1.0 137 60-205 42-218 (257)
116 TIGR01262 maiA maleylacetoacet 96.9 0.0035 7.5E-08 49.9 6.7 62 154-215 3-65 (210)
117 KOG4244|consensus 96.9 0.00092 2E-08 55.0 3.1 139 57-205 66-244 (281)
118 PF13417 GST_N_3: Glutathione 96.8 0.0023 5E-08 42.6 4.1 58 155-215 3-60 (75)
119 cd03049 GST_N_3 GST_N family, 96.6 0.01 2.2E-07 39.0 6.3 60 153-215 3-65 (73)
120 PLN02378 glutathione S-transfe 96.5 0.0077 1.7E-07 48.4 6.2 55 158-215 19-73 (213)
121 cd03061 GST_N_CLIC GST_N famil 96.5 0.011 2.4E-07 41.2 6.1 54 159-215 22-75 (91)
122 PRK10357 putative glutathione 96.4 0.0077 1.7E-07 47.7 5.6 60 153-215 3-63 (202)
123 PF13409 GST_N_2: Glutathione 96.4 0.0082 1.8E-07 39.5 4.8 56 160-215 3-60 (70)
124 cd03192 GST_C_Sigma_like GST_C 96.3 0.00018 3.9E-09 50.9 -4.0 72 125-199 2-78 (104)
125 cd03055 GST_N_Omega GST_N fami 96.3 0.02 4.3E-07 39.5 6.4 61 152-215 20-81 (89)
126 PF13410 GST_C_2: Glutathione 96.2 0.00043 9.4E-09 45.2 -2.0 34 165-198 8-42 (69)
127 cd03193 GST_C_Metaxin GST_C fa 96.2 0.0013 2.7E-08 45.2 0.0 33 166-198 22-55 (88)
128 cd03038 GST_N_etherase_LigE GS 96.1 0.014 3.1E-07 39.5 5.0 56 159-215 16-72 (84)
129 TIGR00862 O-ClC intracellular 95.9 0.02 4.3E-07 47.1 6.0 55 158-215 18-72 (236)
130 cd03194 GST_C_3 GST_C family, 95.9 0.0019 4.2E-08 46.8 -0.1 22 176-198 58-79 (114)
131 cd03198 GST_C_CLIC GST_C famil 95.7 0.0031 6.7E-08 47.3 0.2 35 165-199 31-82 (134)
132 cd03037 GST_N_GRX2 GST_N famil 95.6 0.041 8.9E-07 35.9 5.3 59 153-215 3-62 (71)
133 cd03209 GST_C_Mu GST_C family, 95.5 0.0045 9.8E-08 45.1 0.6 32 167-198 39-71 (121)
134 cd00570 GST_N_family Glutathio 95.5 0.083 1.8E-06 33.2 6.5 59 155-215 5-63 (71)
135 PRK10387 glutaredoxin 2; Provi 95.5 0.03 6.6E-07 44.4 5.2 59 153-215 3-62 (210)
136 cd03080 GST_N_Metaxin_like GST 95.4 0.037 8E-07 36.7 4.7 47 159-215 17-63 (75)
137 cd03040 GST_N_mPGES2 GST_N fam 95.4 0.047 1E-06 36.2 5.2 58 153-215 4-65 (77)
138 PF00043 GST_C: Glutathione S- 95.2 0.0039 8.5E-08 43.0 -0.7 32 167-198 32-64 (95)
139 cd03204 GST_C_GDAP1 GST_C fami 95.1 0.0046 1E-07 44.8 -0.4 34 165-198 31-75 (111)
140 PLN02817 glutathione dehydroge 94.9 0.069 1.5E-06 44.6 6.0 54 159-215 73-126 (265)
141 cd03201 GST_C_DHAR GST_C famil 94.9 0.0064 1.4E-07 44.6 -0.4 34 165-198 32-67 (121)
142 PTZ00057 glutathione s-transfe 94.8 0.076 1.6E-06 42.3 5.7 57 154-215 8-72 (205)
143 TIGR02182 GRXB Glutaredoxin, G 94.7 0.075 1.6E-06 42.5 5.5 58 154-215 3-61 (209)
144 cd03188 GST_C_Beta GST_C famil 94.6 0.023 5E-07 40.3 2.0 59 13-71 16-79 (114)
145 cd03202 GST_C_etherase_LigE GS 94.3 0.016 3.5E-07 42.5 0.6 33 164-196 59-92 (124)
146 cd03177 GST_C_Delta_Epsilon GS 94.0 0.019 4.1E-07 41.4 0.5 51 21-71 24-74 (118)
147 cd03205 GST_C_6 GST_C family, 93.9 0.0077 1.7E-07 42.1 -1.6 65 130-198 2-70 (98)
148 COG2999 GrxB Glutaredoxin 2 [P 93.9 0.051 1.1E-06 42.4 2.7 51 86-140 44-97 (215)
149 cd03077 GST_N_Alpha GST_N fami 93.9 0.081 1.7E-06 35.5 3.5 55 157-215 8-65 (79)
150 cd03054 GST_N_Metaxin GST_N fa 93.8 0.15 3.3E-06 33.2 4.7 47 159-215 16-62 (72)
151 cd03079 GST_N_Metaxin2 GST_N f 93.4 0.35 7.7E-06 32.3 5.8 48 159-215 17-64 (74)
152 KOG3029|consensus 93.1 0.066 1.4E-06 44.7 2.3 54 55-110 102-159 (370)
153 cd03211 GST_C_Metaxin2 GST_C f 93.0 0.031 6.7E-07 41.2 0.2 34 164-197 58-92 (126)
154 cd03210 GST_C_Pi GST_C family, 92.8 0.021 4.6E-07 41.9 -0.9 31 168-198 40-74 (126)
155 cd03189 GST_C_GTT1_like GST_C 92.5 0.1 2.2E-06 37.4 2.4 35 37-71 56-90 (119)
156 KOG3028|consensus 92.5 0.13 2.7E-06 43.6 3.2 121 80-203 40-202 (313)
157 cd03197 GST_C_mPGES2 GST_C fam 92.3 0.017 3.7E-07 44.0 -2.0 30 175-206 93-122 (149)
158 PF10568 Tom37: Outer mitochon 92.1 0.17 3.7E-06 33.6 2.9 29 80-108 40-71 (72)
159 PF00043 GST_C: Glutathione S- 91.9 0.15 3.2E-06 34.9 2.5 40 32-71 25-64 (95)
160 cd03196 GST_C_5 GST_C family, 91.8 0.095 2.1E-06 37.8 1.6 52 19-71 26-77 (115)
161 cd03179 GST_C_1 GST_C family, 91.6 0.29 6.4E-06 33.9 3.9 37 35-71 43-79 (105)
162 cd03193 GST_C_Metaxin GST_C fa 91.4 0.2 4.4E-06 34.0 2.8 37 35-71 19-55 (88)
163 PF13410 GST_C_2: Glutathione 90.9 0.25 5.5E-06 31.7 2.7 42 34-75 5-46 (69)
164 cd03190 GST_C_ECM4_like GST_C 90.8 0.23 4.9E-06 37.2 2.8 40 32-71 34-73 (142)
165 cd03180 GST_C_2 GST_C family, 90.8 0.25 5.3E-06 34.6 2.8 36 36-71 44-79 (110)
166 cd03206 GST_C_7 GST_C family, 90.8 0.25 5.3E-06 34.4 2.8 40 32-71 30-69 (100)
167 COG0435 ECM4 Predicted glutath 90.7 0.34 7.4E-06 40.5 3.9 46 32-77 202-247 (324)
168 cd03208 GST_C_Alpha GST_C fami 90.6 0.06 1.3E-06 40.2 -0.5 29 169-197 45-76 (137)
169 cd03198 GST_C_CLIC GST_C famil 90.5 0.2 4.4E-06 37.5 2.3 43 31-73 25-83 (134)
170 cd00299 GST_C_family Glutathio 90.3 0.24 5.1E-06 33.7 2.4 42 32-73 33-74 (100)
171 cd03201 GST_C_DHAR GST_C famil 90.2 0.2 4.4E-06 36.5 2.0 41 31-71 26-67 (121)
172 cd03207 GST_C_8 GST_C family, 90.2 0.24 5.1E-06 34.5 2.3 40 32-71 27-66 (103)
173 cd03178 GST_C_Ure2p_like GST_C 90.1 0.42 9.1E-06 33.7 3.6 36 36-71 41-76 (113)
174 cd03187 GST_C_Phi GST_C family 89.9 0.3 6.5E-06 34.7 2.7 35 37-71 47-81 (118)
175 cd03182 GST_C_GTT2_like GST_C 89.9 0.32 6.9E-06 34.6 2.8 38 34-71 48-85 (117)
176 cd03212 GST_C_Metaxin1_3 GST_C 89.7 0.086 1.9E-06 39.5 -0.4 33 164-196 65-98 (137)
177 cd03186 GST_C_SspA GST_N famil 89.5 0.38 8.2E-06 33.7 2.9 38 34-71 34-71 (107)
178 cd03185 GST_C_Tau GST_C family 89.2 0.41 9E-06 34.5 3.0 41 31-71 31-71 (126)
179 KOG0406|consensus 89.0 0.94 2E-05 37.0 5.2 60 153-215 12-72 (231)
180 KOG4420|consensus 88.6 0.31 6.8E-06 40.4 2.1 61 155-215 31-91 (325)
181 cd03202 GST_C_etherase_LigE GS 88.5 0.56 1.2E-05 34.2 3.3 42 31-72 54-95 (124)
182 cd03208 GST_C_Alpha GST_C fami 88.4 0.27 6E-06 36.6 1.6 31 41-71 45-77 (137)
183 cd03209 GST_C_Mu GST_C family, 87.7 0.56 1.2E-05 33.8 2.8 38 34-71 34-71 (121)
184 cd03181 GST_C_EFB1gamma GST_C 87.0 0.59 1.3E-05 33.5 2.6 37 35-71 40-76 (123)
185 cd03184 GST_C_Omega GST_C fami 85.6 0.7 1.5E-05 33.5 2.4 41 31-71 28-70 (124)
186 cd03200 GST_C_JTV1 GST_C famil 85.5 0.68 1.5E-05 32.3 2.2 34 38-71 38-71 (96)
187 cd03210 GST_C_Pi GST_C family, 85.1 0.79 1.7E-05 33.4 2.5 38 34-71 34-74 (126)
188 cd03203 GST_C_Lambda GST_C fam 84.4 0.2 4.3E-06 36.4 -1.0 45 21-71 21-68 (120)
189 cd03204 GST_C_GDAP1 GST_C fami 84.0 0.84 1.8E-05 32.9 2.2 39 34-72 28-76 (111)
190 PF09635 MetRS-N: MetRS-N bind 83.9 0.42 9.1E-06 35.0 0.6 21 93-113 43-63 (122)
191 cd03183 GST_C_Theta GST_C fami 83.6 1.1 2.4E-05 32.2 2.8 34 38-71 48-82 (126)
192 PF14497 GST_C_3: Glutathione 82.5 0.89 1.9E-05 31.5 1.8 41 31-71 31-73 (99)
193 PF14834 GST_C_4: Glutathione 81.9 0.3 6.5E-06 35.4 -0.9 77 122-199 1-80 (117)
194 KOG1147|consensus 79.5 0.52 1.1E-05 43.0 -0.3 83 94-202 44-126 (712)
195 PF11287 DUF3088: Protein of u 78.8 5.2 0.00011 28.9 4.6 19 95-113 90-108 (112)
196 TIGR02190 GlrX-dom Glutaredoxi 77.5 0.78 1.7E-05 30.6 0.1 25 85-109 53-79 (79)
197 cd03192 GST_C_Sigma_like GST_C 76.6 1.9 4.1E-05 29.8 2.0 39 33-71 37-77 (104)
198 cd03194 GST_C_3 GST_C family, 76.3 3.2 7E-05 29.6 3.1 39 32-71 38-79 (114)
199 cd03191 GST_C_Zeta GST_C famil 75.5 2.2 4.8E-05 30.4 2.1 34 38-71 47-82 (121)
200 cd03212 GST_C_Metaxin1_3 GST_C 73.5 3.8 8.2E-05 30.6 3.0 39 32-70 61-99 (137)
201 cd03195 GST_C_4 GST_C family, 70.7 5.9 0.00013 28.2 3.4 39 32-71 39-78 (114)
202 cd03211 GST_C_Metaxin2 GST_C f 68.8 5.6 0.00012 29.1 2.9 41 31-71 53-93 (126)
203 cd03205 GST_C_6 GST_C family, 58.9 9.2 0.0002 26.2 2.4 36 33-71 35-70 (98)
204 KOG2903|consensus 58.7 11 0.00024 31.5 3.1 47 29-75 197-245 (319)
205 cd03078 GST_N_Metaxin1_like GS 56.3 9.8 0.00021 25.0 2.1 21 195-215 42-62 (73)
206 cd02976 NrdH NrdH-redoxin (Nrd 49.1 51 0.0011 20.3 4.7 56 155-212 6-61 (73)
207 PRK10638 glutaredoxin 3; Provi 44.9 59 0.0013 21.4 4.6 58 153-212 6-63 (83)
208 cd03197 GST_C_mPGES2 GST_C fam 38.2 20 0.00044 27.3 1.5 41 35-75 79-120 (149)
209 cd03029 GRX_hybridPRX5 Glutare 38.1 21 0.00046 22.8 1.5 24 86-109 47-72 (72)
210 PLN02907 glutamate-tRNA ligase 37.8 20 0.00043 34.4 1.8 32 39-70 94-125 (722)
211 PF09314 DUF1972: Domain of un 33.8 32 0.0007 27.1 2.1 28 93-120 153-181 (185)
212 KOG1695|consensus 33.2 26 0.00056 28.2 1.5 33 39-71 127-161 (206)
213 KOG1422|consensus 32.1 32 0.00069 27.8 1.8 90 32-132 120-213 (221)
214 KOG4103|consensus 31.9 28 0.00061 24.4 1.3 48 11-58 20-67 (103)
215 cd08540 SAM_PNT-ERG Sterile al 29.6 40 0.00086 22.5 1.7 22 120-141 2-25 (75)
216 cd08542 SAM_PNT-ETS-1 Sterile 28.6 44 0.00095 23.1 1.8 24 118-141 14-39 (88)
217 cd08531 SAM_PNT-ERG_FLI-1 Ster 28.5 43 0.00093 22.3 1.7 22 120-141 2-25 (75)
218 cd08533 SAM_PNT-ETS-1,2 Steril 27.6 44 0.00096 22.0 1.6 22 120-141 1-24 (71)
219 COG0320 LipA Lipoate synthase 25.4 55 0.0012 27.7 2.1 49 9-62 246-300 (306)
220 TIGR02200 GlrX_actino Glutared 24.4 1.9E+02 0.004 18.0 4.6 59 154-214 5-65 (77)
221 TIGR02196 GlrX_YruB Glutaredox 23.5 64 0.0014 19.8 1.9 24 85-108 46-73 (74)
222 cd08534 SAM_PNT-GABP-alpha Ste 22.9 66 0.0014 22.2 1.9 24 118-141 14-39 (89)
223 cd03027 GRX_DEP Glutaredoxin ( 22.4 2.1E+02 0.0046 18.0 4.2 58 153-212 5-62 (73)
224 cd08543 SAM_PNT-ETS-2 Sterile 21.5 71 0.0015 22.1 1.8 24 118-141 14-39 (89)
225 cd08541 SAM_PNT-FLI-1 Sterile 21.1 73 0.0016 22.1 1.8 24 118-141 12-37 (91)
226 cd08532 SAM_PNT-PDEF-like Ster 20.7 73 0.0016 21.3 1.7 22 119-140 6-29 (76)
227 PF09098 Dehyd-heme_bind: Quin 20.7 67 0.0015 24.9 1.7 18 100-121 55-72 (167)
No 1
>PLN02473 glutathione S-transferase
Probab=99.83 E-value=9.5e-22 Score=158.58 Aligned_cols=152 Identities=16% Similarity=0.152 Sum_probs=105.0
Q ss_pred hHHHHhhCCCCcccccceeecccccccccceeeccCCcCC-------CCcceecC--CCCeeeeeHHHHHHHHHHHhCCC
Q psy10373 45 GFLNTFLASSPWVAGDNITIADCSIVASLSTIECSTSDHM-------ASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKD 115 (215)
Q Consensus 45 ~~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~-------~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~ 115 (215)
|+++.-.+.++.++.+.|...+++++. ..+|+.+++++ ||+|+||+ |||.+|+||.||++||+++|++.
T Consensus 4 kLy~~~~s~~~~rv~~~L~e~gi~ye~--~~v~~~~~~~~~~~~~~~nP~g~vP~L~~~g~~l~ES~aI~~YL~~~~~~~ 81 (214)
T PLN02473 4 KVYGQIKAANPQRVLLCFLEKGIEFEV--IHVDLDKLEQKKPEHLLRQPFGQVPAIEDGDLKLFESRAIARYYATKYADQ 81 (214)
T ss_pred EEecCCCCCchHHHHHHHHHcCCCceE--EEecCcccccCCHHHHhhCCCCCCCeEEECCEEEEehHHHHHHHHHHcCCc
Confidence 444333345667888878778887655 33477666554 59999999 88999999999999999999742
Q ss_pred -CCCCCCCHHHHHHHHHHHhhhccccchhcccceeeccccC-CCCCCch----HHHHHHHHHcC-CCcEEEeccCCCCCC
Q psy10373 116 -DSLYPKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYY-VPGSAPC----RAVQLAAAQIG-VPLNLKHTDLMKGEH 188 (215)
Q Consensus 116 -~~L~p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~-~~~~~~~----~~~~~~~~~l~-le~~L~~~~fl~Gd~ 188 (215)
..|+|.++.+|+++++|+.|.++.+.+.+........+.. ....... .....+.+.++ +|.+|++++|++||+
T Consensus 82 ~~~l~p~~~~~ra~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~l~Gd~ 161 (214)
T PLN02473 82 GTDLLGKTLEHRAIVDQWVEVENNYFYAVALPLVINLVFKPRLGEPCDVALVEELKVKFDKVLDVYENRLATNRYLGGDE 161 (214)
T ss_pred CCCCCCCCHHHHHHHHHHHHHHHhcccHHHHHHHHHHHhcccccCCCChHHHHHHHHHHHHHHHHHHHHhccCCcccCCC
Confidence 2599999999999999999988776553322111111111 1111111 12234445555 588888889999999
Q ss_pred CCHhHHhhCC
Q psy10373 189 LTPEFLKLNP 198 (215)
Q Consensus 189 ~T~ADi~l~P 198 (215)
+|+||+++.|
T Consensus 162 ~t~ADi~~~~ 171 (214)
T PLN02473 162 FTLADLTHMP 171 (214)
T ss_pred CCHHHHHHHH
Confidence 9999999854
No 2
>PLN02395 glutathione S-transferase
Probab=99.83 E-value=6.9e-22 Score=159.42 Aligned_cols=147 Identities=20% Similarity=0.198 Sum_probs=105.6
Q ss_pred hhCCCCcccccceeecccccccccceeeccCCcCC-------CCcceecC--CCCeeeeeHHHHHHHHHHHhCCC-CCCC
Q psy10373 50 FLASSPWVAGDNITIADCSIVASLSTIECSTSDHM-------ASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKD-DSLY 119 (215)
Q Consensus 50 ~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~-------~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~-~~L~ 119 (215)
..++++.++.+.|...|++++. ..+++.+++++ ||+|+||+ |+|.+|+||.||++||+++|+.. ++|+
T Consensus 8 ~~~~~~~rv~~~L~e~gl~~e~--~~v~~~~~~~~~~~~~~~nP~g~vP~L~~~~~~l~ES~aI~~YL~~~~~~~~~~l~ 85 (215)
T PLN02395 8 PAFASPKRALVTLIEKGVEFET--VPVDLMKGEHKQPEYLALQPFGVVPVIVDGDYKIFESRAIMRYYAEKYRSQGPDLL 85 (215)
T ss_pred CCcCcHHHHHHHHHHcCCCceE--EEeccccCCcCCHHHHhhCCCCCCCEEEECCEEEEcHHHHHHHHHHHcCCCCcCcC
Confidence 4556788888888888888665 33466555433 59999999 88899999999999999999742 2499
Q ss_pred CCCHHHHHHHHHHHhhhccccchhcccceeecccc---CCCCCCc--hHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhH
Q psy10373 120 PKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFY---YVPGSAP--CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEF 193 (215)
Q Consensus 120 p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~---~~~~~~~--~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~AD 193 (215)
|.++.+|+++++|+.|.++.+++.+........+. +.+.... ....+.+.+.+. +|.+|++++|++|+++|+||
T Consensus 86 p~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~l~G~~~s~AD 165 (215)
T PLN02395 86 GKTIEERGQVEQWLDVEATSYHPPLLNLTLHILFASKMGFPADEKVIKESEEKLAKVLDVYEARLSKSKYLAGDFVSLAD 165 (215)
T ss_pred CCChhHHHHHHHHHHHHHHhcCchHHHHHHHHHhhhhccCCCcHHHHHHHHHHHHHHHHHHHHHhcCCccccCCCcCHHH
Confidence 99999999999999998887776543322211110 1111111 112334455555 68888888999999999999
Q ss_pred HhhCC
Q psy10373 194 LKLNP 198 (215)
Q Consensus 194 i~l~P 198 (215)
+.+.|
T Consensus 166 i~l~~ 170 (215)
T PLN02395 166 LAHLP 170 (215)
T ss_pred HHHHH
Confidence 99855
No 3
>KOG0867|consensus
Probab=99.82 E-value=1.1e-20 Score=154.14 Aligned_cols=145 Identities=21% Similarity=0.219 Sum_probs=108.7
Q ss_pred CCCCcccccceeecccccccccceeeccCCcCCC-------CcceecC--CCCeeeeeHHHHHHHHHHHhC-CCCCCCCC
Q psy10373 52 ASSPWVAGDNITIADCSIVASLSTIECSTSDHMA-------SQTRHPG--NLLVLMFSSRAIIAYLAEQYG-KDDSLYPK 121 (215)
Q Consensus 52 ~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~~-------P~GkVPv--ddg~~L~ES~AI~~YL~~~~~-~~~~L~p~ 121 (215)
+.++.++-+.+...|+.++. ..+|+.+|||++ |+|+||+ |+|..|+||.||+.||+++|+ .+..|+|.
T Consensus 11 s~~~r~vl~~~~~~~l~~e~--~~v~~~~ge~~~pefl~~nP~~kVP~l~d~~~~l~eS~AI~~Yl~~ky~~~~~~l~p~ 88 (226)
T KOG0867|consen 11 SPPARAVLIAAKELGLEVEL--KPVDLVKGEQKSPEFLKLNPLGKVPALEDGGLTLWESHAILRYLAEKYGPLGGILLPK 88 (226)
T ss_pred CcchHHHHHHHHHcCCceeE--EEeeccccccCCHHHHhcCcCCCCCeEecCCeEEeeHHHHHHHHHHHcCCCCcccCCc
Confidence 34445555555555666554 466999998886 9999999 889999999999999999997 33339999
Q ss_pred CHHHHHHHHHHHhhhccccchh--cccceeeccccCC-CCCCchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhC
Q psy10373 122 DPKARGIVNQRLYFDIGTLYQR--FADYFMTIDFYYV-PGSAPCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLN 197 (215)
Q Consensus 122 d~~era~v~~wl~~~~~~l~~~--~~~~~~~~~l~~~-~~~~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~ 197 (215)
|+.+||.|++|++|.++.+.+. ....+.+...... ...........+...++ +|..|.++.|++|+++|+||+++.
T Consensus 89 ~~~~ra~v~~~l~~~~~~l~~~~~~~~~~~p~~~~~~~~~~~~~~~~~~~~~~~~~~e~~l~~~~yl~g~~~tlADl~~~ 168 (226)
T KOG0867|consen 89 DLKERAIVDQWLEFENGVLDPVTFERPILAPLLVGLPLNPTAVKELEAKLRKALDNLERFLKTQVYLAGDQLTLADLSLA 168 (226)
T ss_pred CHHHHHHHHHHHHhhhcccccccccceeeecceecccCcchhhHHHHHHHHHHHHHHHHHHccCCcccCCcccHHHHHHh
Confidence 9999999999999999999987 3455554222221 11122334455666677 699999999999999999999984
Q ss_pred C
Q psy10373 198 P 198 (215)
Q Consensus 198 P 198 (215)
+
T Consensus 169 ~ 169 (226)
T KOG0867|consen 169 S 169 (226)
T ss_pred h
Confidence 3
No 4
>COG0625 Gst Glutathione S-transferase [Posttranslational modification, protein turnover, chaperones]
Probab=99.82 E-value=1.9e-21 Score=156.68 Aligned_cols=151 Identities=18% Similarity=0.196 Sum_probs=107.5
Q ss_pred hHHHHhhCCCCcccccceeecccccccccceeeccC----Cc--CCCCcceecC--CCC-eeeeeHHHHHHHHHHHhCCC
Q psy10373 45 GFLNTFLASSPWVAGDNITIADCSIVASLSTIECST----SD--HMASQTRHPG--NLL-VLMFSSRAIIAYLAEQYGKD 115 (215)
Q Consensus 45 ~~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~----~e--~~~P~GkVPv--ddg-~~L~ES~AI~~YL~~~~~~~ 115 (215)
++++...+.++.|+.+.+...|++++. ..+++.. .+ .+||+|+||| +|| .+|+||.||++||+++|++.
T Consensus 2 ~L~~~~~sp~~~kv~l~l~e~g~~ye~--~~v~~~~~~~~~~~~~~nP~gkVPvL~~~~~~~l~ES~AI~~YL~~~~~~~ 79 (211)
T COG0625 2 KLYGSPTSPYSRKVRLALEEKGLPYEI--VLVDLDAEQKPPDFLALNPLGKVPALVDDDGEVLTESGAILEYLAERYPGP 79 (211)
T ss_pred eeecCCCCcchHHHHHHHHHcCCCceE--EEeCcccccCCHHHHhcCCCCCCCEEeeCCCCeeecHHHHHHHHHhhCCCC
Confidence 455666666677777777777766654 3335554 11 3369999999 444 49999999999999999965
Q ss_pred CCCCCCCHH---HHHHHHHHHhhhccccchhcccceeeccccCCCCCCch---HHHHHHHHHcC-CCcEEEeccCCCCCC
Q psy10373 116 DSLYPKDPK---ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPC---RAVQLAAAQIG-VPLNLKHTDLMKGEH 188 (215)
Q Consensus 116 ~~L~p~d~~---era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~---~~~~~~~~~l~-le~~L~~~~fl~Gd~ 188 (215)
+ |+|.++. +|+++.+|+.|..+.+.+.+....... .......... .........+. +|..|+.++|++|++
T Consensus 80 ~-l~p~~~~~r~~r~~~~~~~~~~~~~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~l~G~~ 157 (211)
T COG0625 80 P-LLPADPLARRARALLLWWLFFAASDLHPVIGQRRRAL-LGSEPELLEAALEAARAEIRALLALLEALLADGPYLAGDR 157 (211)
T ss_pred C-cCCCCchhHHHHHHHHHHHHHHHhcccHHHHHHHhhh-ccccccccHHHHHHHHHHHHHHHHHHHHHhccCCcccCCC
Confidence 5 9998774 899999999999999988876655543 2222111111 12234455555 588998899999999
Q ss_pred CCHhHHhhCCC
Q psy10373 189 LTPEFLKLNPQ 199 (215)
Q Consensus 189 ~T~ADi~l~P~ 199 (215)
+|+||+.+.+.
T Consensus 158 ~tiAD~~~~~~ 168 (211)
T COG0625 158 FTIADIALAPL 168 (211)
T ss_pred CCHHHHHHHHH
Confidence 99999999543
No 5
>PRK10542 glutathionine S-transferase; Provisional
Probab=99.82 E-value=2e-21 Score=155.08 Aligned_cols=142 Identities=14% Similarity=0.125 Sum_probs=100.8
Q ss_pred hhCCCCcccccceeecccccccccceeeccCCc--------CCCCcceecC---CCCeeeeeHHHHHHHHHHHhCCCCCC
Q psy10373 50 FLASSPWVAGDNITIADCSIVASLSTIECSTSD--------HMASQTRHPG---NLLVLMFSSRAIIAYLAEQYGKDDSL 118 (215)
Q Consensus 50 ~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e--------~~~P~GkVPv---ddg~~L~ES~AI~~YL~~~~~~~~~L 118 (215)
..+.+++++.+.|...|++++. ..+++.+++ .+||+|+||| |||.+|+||.||++||++++++.. +
T Consensus 6 ~~~s~~~~~~~~L~~~gi~~e~--~~v~~~~~~~~~~~~~~~~nP~g~vPvL~~~~g~~l~eS~aI~~YL~~~~~~~~-l 82 (201)
T PRK10542 6 KPGACSLASHITLRESGLDFTL--VSVDLAKKRLENGDDYLAINPKGQVPALLLDDGTLLTEGVAIMQYLADSVPDRQ-L 82 (201)
T ss_pred cccHHHHHHHHHHHHcCCCceE--EEeecccccccCChHHHHhCcCCCCCeEEeCCCcEeecHHHHHHHHHHhCcccc-c
Confidence 3344667777777777887765 344765443 2359999999 578999999999999999998654 5
Q ss_pred C-CCCHHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhh
Q psy10373 119 Y-PKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKL 196 (215)
Q Consensus 119 ~-p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l 196 (215)
+ |.++.+|+++++|+.|.++.+.+.+...+.. ..+..........+...+. +|.+|++++|++|+++|+||+++
T Consensus 83 ~~p~~~~~ra~~~~~~~~~~~~~~~~~~~~~~~----~~~~~~~~~~~~~~~~~l~~le~~L~~~~~l~G~~~s~ADi~l 158 (201)
T PRK10542 83 LAPVGSLSRYHTIEWLNYIATELHKGFTPLFRP----DTPEEYKPTVRAQLEKKFQYVDEALADEQWICGQRFTIADAYL 158 (201)
T ss_pred CCCCCcHHHHHHHHHHHHHHhhhhhhhhhccCC----CChHHHHHHHHHHHHHHHHHHHHHhcCCCeeeCCCCcHHhHHH
Confidence 5 5688999999999999887777654333221 1111111112334555555 68888888999999999999998
Q ss_pred CC
Q psy10373 197 NP 198 (215)
Q Consensus 197 ~P 198 (215)
.|
T Consensus 159 ~~ 160 (201)
T PRK10542 159 FT 160 (201)
T ss_pred HH
Confidence 54
No 6
>PRK13972 GSH-dependent disulfide bond oxidoreductase; Provisional
Probab=99.82 E-value=5e-21 Score=154.66 Aligned_cols=142 Identities=15% Similarity=0.157 Sum_probs=101.4
Q ss_pred hCCCCcccccceeecccccccccceeeccCCcCC-------CCcceecC--C-----CC--eeeeeHHHHHHHHHHHhCC
Q psy10373 51 LASSPWVAGDNITIADCSIVASLSTIECSTSDHM-------ASQTRHPG--N-----LL--VLMFSSRAIIAYLAEQYGK 114 (215)
Q Consensus 51 ~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~-------~P~GkVPv--d-----dg--~~L~ES~AI~~YL~~~~~~ 114 (215)
.++++.++.+.|...+++++. ..+|+.+++++ ||+|+||| + || .+|+||.||++||+++|+
T Consensus 8 ~~~~~~~v~~~L~e~gl~~e~--~~v~~~~~~~~~~~~~~iNP~gkVP~L~~~~~~d~g~~~~L~ES~AI~~YL~~~~~- 84 (215)
T PRK13972 8 PTPNGHKITLFLEEAELDYRL--IKVDLGKGGQFRPEFLRISPNNKIPAIVDHSPADGGEPLSLFESGAILLYLAEKTG- 84 (215)
T ss_pred CCCChHHHHHHHHHcCCCcEE--EEecCcccccCCHHHHhhCcCCCCCEEEeCCCCCCCCceeEEcHHHHHHHHHHhcC-
Confidence 457778888888888888765 33477776654 59999999 5 45 589999999999999986
Q ss_pred CCCCCCCCHHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCc--hHHHHHHHHHcC-CCcEEEeccCCCCCCCCH
Q psy10373 115 DDSLYPKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAP--CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTP 191 (215)
Q Consensus 115 ~~~L~p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~--~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ 191 (215)
.+.|.++.+|+++++|+.|..+.+.+.+...... .......... ......+.+.+. +|.+|.+++|++||++|+
T Consensus 85 --~l~p~~~~~ra~~~~~~~~~~~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~l~Gd~~t~ 161 (215)
T PRK13972 85 --LFLSHETRERAATLQWLFWQVGGLGPMLGQNHHF-NHAAPQTIPYAIERYQVETQRLYHVLNKRLENSPWLGGENYSI 161 (215)
T ss_pred --CCCCCCHHHHHHHHHHHHHHhhccCcceeeeeee-eccCCCCCchHHHHHHHHHHHHHHHHHHHhccCccccCCCCCH
Confidence 3788899999999999999988877654322110 0001111111 112233445555 688888889999999999
Q ss_pred hHHhhCC
Q psy10373 192 EFLKLNP 198 (215)
Q Consensus 192 ADi~l~P 198 (215)
||+++.|
T Consensus 162 ADi~l~~ 168 (215)
T PRK13972 162 ADIACWP 168 (215)
T ss_pred HHHHHHH
Confidence 9998844
No 7
>PRK09481 sspA stringent starvation protein A; Provisional
Probab=99.81 E-value=1.4e-21 Score=157.68 Aligned_cols=147 Identities=15% Similarity=0.132 Sum_probs=103.4
Q ss_pred HhHHHHhhCCCCcccccceeecccccccccceeeccC--Cc--CCCCcceecC--CCCeeeeeHHHHHHHHHHHhCCCCC
Q psy10373 44 LGFLNTFLASSPWVAGDNITIADCSIVASLSTIECST--SD--HMASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKDDS 117 (215)
Q Consensus 44 ~~~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~--~e--~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~~~ 117 (215)
+++++.-.+.++.++.+.|...|++++. ..+|+.. .+ .+||+|+||| |||.+|+||.||++||+++|+.. .
T Consensus 11 ~~Ly~~~~s~~~~rv~~~L~e~gl~~e~--~~v~~~~~~~~~~~~nP~g~VPvL~~~g~~l~ES~AIl~YL~~~~~~~-~ 87 (211)
T PRK09481 11 MTLFSGPTDIYSHQVRIVLAEKGVSVEI--EQVEKDNLPQDLIDLNPYQSVPTLVDRELTLYESRIIMEYLDERFPHP-P 87 (211)
T ss_pred eEEeCCCCChhHHHHHHHHHHCCCCCEE--EeCCcccCCHHHHHhCCCCCCCEEEECCEEeeCHHHHHHHHHHhCCCC-C
Confidence 5555544567778888888888888765 3335432 22 3459999999 88999999999999999999854 4
Q ss_pred CCCCCHHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhh
Q psy10373 118 LYPKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKL 196 (215)
Q Consensus 118 L~p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l 196 (215)
|+|.++.+|+++++|+.+....+....... ..+.+ .........+...+. +|.+|.+++|++|+++|+||+.+
T Consensus 88 l~p~~~~~ra~~~~~~~~~~~~~~~~~~~~-----~~~~~-~~~~~~~~~l~~~l~~le~~L~~~~~l~G~~~t~AD~~l 161 (211)
T PRK09481 88 LMPVYPVARGESRLMMHRIEKDWYSLMNKI-----VNGSA-SEADAARKQLREELLAIAPVFGEKPYFMSEEFSLVDCYL 161 (211)
T ss_pred CCCCCHHHHHHHHHHHHHHHHHHHHHHHHH-----hcCCH-HHHHHHHHHHHHHHHHHHHHhccCCcccCCCccHHHHHH
Confidence 999999999999999988765544332111 01111 111122233444455 68888888999999999999998
Q ss_pred CCC
Q psy10373 197 NPQ 199 (215)
Q Consensus 197 ~P~ 199 (215)
.|.
T Consensus 162 ~~~ 164 (211)
T PRK09481 162 APL 164 (211)
T ss_pred HHH
Confidence 554
No 8
>KOG0868|consensus
Probab=99.81 E-value=3.2e-21 Score=147.08 Aligned_cols=152 Identities=17% Similarity=0.157 Sum_probs=111.1
Q ss_pred HHhHHHHhhCCCCcccccceeecccccccccceeeccCCcCC--------CCcceecC--CCCeeeeeHHHHHHHHHHHh
Q psy10373 43 ALGFLNTFLASSPWVAGDNITIADCSIVASLSTIECSTSDHM--------ASQTRHPG--NLLVLMFSSRAIIAYLAEQY 112 (215)
Q Consensus 43 ~~~~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~--------~P~GkVPv--ddg~~L~ES~AI~~YL~~~~ 112 (215)
+..++..+-|+-+|.++..|+|-+++++. ..+++.++++. ||++|||+ +||.+|+||.||++||+|+|
T Consensus 5 KpiLYSYWrSSCswRVRiALaLK~iDYey--~PvnLlk~~~q~~~ef~~iNPm~kVP~L~i~g~tl~eS~AII~YLeEt~ 82 (217)
T KOG0868|consen 5 KPILYSYWRSSCSWRVRIALALKGIDYEY--KPVNLLKEEDQSDSEFKEINPMEKVPTLVIDGLTLTESLAIIEYLEETY 82 (217)
T ss_pred cchhhhhhcccchHHHHHHHHHcCCCcce--eehhhhcchhhhhhHHhhcCchhhCCeEEECCEEeehHHHHHHHHHhcC
Confidence 34566777778899999999999999877 45588776432 49999999 99999999999999999999
Q ss_pred CCCCCCCCCCHHHHHHHHHHHhhhccccchhcccceeeccccCCCCC--CchHHHHHHHH-HcCCCcEEE--eccCCCCC
Q psy10373 113 GKDDSLYPKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGS--APCRAVQLAAA-QIGVPLNLK--HTDLMKGE 187 (215)
Q Consensus 113 ~~~~~L~p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~--~~~~~~~~~~~-~l~le~~L~--~~~fl~Gd 187 (215)
|+.+ |+|+|+..||.+++-.....+.++|.-......+ + +.... ...+......+ +.++|..|+ .++|.+||
T Consensus 83 P~pp-LLP~d~~KRA~~r~i~~~i~sgIQPlQNl~vl~~-l-~ek~~~~~~~W~q~~ItkGF~ALEklL~~~aGkycvGD 159 (217)
T KOG0868|consen 83 PDPP-LLPKDPHKRAKARAISLLIASGIQPLQNLSVLKM-L-NEKEPGYGDQWAQHFITKGFTALEKLLKSHAGKYCVGD 159 (217)
T ss_pred CCCC-CCCcCHHHHHHHHHHHHHHHhCCCcchhhHHHHH-h-cccccchhhHHHHHHHHHhHHHHHHHHHHccCCcccCc
Confidence 9764 9999999999999999888888877532221111 1 21111 11222222222 223555554 46899999
Q ss_pred CCCHhHHhhCCC
Q psy10373 188 HLTPEFLKLNPQ 199 (215)
Q Consensus 188 ~~T~ADi~l~P~ 199 (215)
++|+||+++.|.
T Consensus 160 evtiADl~L~pq 171 (217)
T KOG0868|consen 160 EVTIADLCLPPQ 171 (217)
T ss_pred eeehhhhccchh
Confidence 999999999765
No 9
>PRK15113 glutathione S-transferase; Provisional
Probab=99.81 E-value=2.4e-20 Score=150.66 Aligned_cols=144 Identities=17% Similarity=0.092 Sum_probs=97.9
Q ss_pred CCCcccccceeecccccccccceeeccCCcCC-------CCcceecC--CCCeeeeeHHHHHHHHHHHhCCCC--CCCCC
Q psy10373 53 SSPWVAGDNITIADCSIVASLSTIECSTSDHM-------ASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKDD--SLYPK 121 (215)
Q Consensus 53 g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~-------~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~~--~L~p~ 121 (215)
..+.++.+.|...|++++. ..+|+.++++. ||+|+||| |||.+|+||.||++||+++|++.. .|+|.
T Consensus 17 ~~~~rv~~~l~e~gi~~e~--~~v~~~~~~~~~~~~~~~nP~g~VP~L~~~~~~l~ES~aI~~YL~~~~~~~~~~~l~p~ 94 (214)
T PRK15113 17 PYVMSAFVALQEKGLPFEL--KTVDLDAGEHLQPTYQGYSLTRRVPTLQHDDFELSESSAIAEYLEERFAPPAWERIYPA 94 (214)
T ss_pred chHHHHHHHHHHcCCCCeE--EEeCCCCccccCHHHHhcCCCCCCCEEEECCEEEecHHHHHHHHHHHcCCCCccccCCC
Confidence 3344555666666766554 45588776644 59999999 889999999999999999998532 39999
Q ss_pred CHHHHHHHHHHHhhhccccchhcccceeeccccCCC-CCCchHHHHHHHHHcC-CCcEEEe-ccCCCCCCCCHhHHhhCC
Q psy10373 122 DPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVP-GSAPCRAVQLAAAQIG-VPLNLKH-TDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 122 d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~-~~~~~~~~~~~~~~l~-le~~L~~-~~fl~Gd~~T~ADi~l~P 198 (215)
++.+|+++++|+.|.++.+.+..........+.... ..........+.+.+. +|.+|++ ..|++|+ +|+||+++.+
T Consensus 95 ~~~~ra~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~~l~G~-~TlADi~l~~ 173 (214)
T PRK15113 95 DLQARARARQIQAWLRSDLMPLREERPTDVVFAGAKKAPLSEAGKAAAEKLFAVAERLLAPGQPNLFGE-WCIADTDLAL 173 (214)
T ss_pred CHHHHHHHHHHHHHHHhhhHHHhccCccchhccCCCCCcccHHHHHHHHHHHHHHHHHHhcCCCEeeCC-ccHHHHHHHH
Confidence 999999999999998877765332111111111111 1111223344555665 5788864 4699996 9999999855
Q ss_pred C
Q psy10373 199 Q 199 (215)
Q Consensus 199 ~ 199 (215)
.
T Consensus 174 ~ 174 (214)
T PRK15113 174 M 174 (214)
T ss_pred H
Confidence 3
No 10
>PRK11752 putative S-transferase; Provisional
Probab=99.77 E-value=1.2e-19 Score=151.24 Aligned_cols=148 Identities=20% Similarity=0.242 Sum_probs=99.4
Q ss_pred HhHHHHhhCCCCcccccceeec------ccccccccceeeccCCcCC-------CCcceecC--C-C---CeeeeeHHHH
Q psy10373 44 LGFLNTFLASSPWVAGDNITIA------DCSIVASLSTIECSTSDHM-------ASQTRHPG--N-L---LVLMFSSRAI 104 (215)
Q Consensus 44 ~~~l~~~~~g~~y~~~~~l~l~------~~~~~~~~~~~~~~~~e~~-------~P~GkVPv--d-d---g~~L~ES~AI 104 (215)
|++++ +.+.++.++.+.|... +++++. ..+|+.+++++ ||+|+||+ + + |.+|+||.||
T Consensus 45 ~~Ly~-~~s~~~~rV~i~L~e~~~~~~~gl~ye~--~~v~~~~~~~~~~e~~~iNP~GkVP~Lv~~dg~~~~~L~ES~AI 121 (264)
T PRK11752 45 LQLYS-LGTPNGQKVTIMLEELLALGVKGAEYDA--WLIRIGEGDQFSSGFVEINPNSKIPALLDRSGNPPIRVFESGAI 121 (264)
T ss_pred eEEec-CCCCchHHHHHHHHHHHhccCCCCceEE--EEecCccccccCHHHHhhCCCCCCCEEEeCCCCCCeEEEcHHHH
Confidence 77776 4566677777776664 555544 34477666543 59999999 4 2 4799999999
Q ss_pred HHHHHHHhCCCCCCCCCCHHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCc--hHHHHHHHHHcC-CCcEEEec
Q psy10373 105 IAYLAEQYGKDDSLYPKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAP--CRAVQLAAAQIG-VPLNLKHT 181 (215)
Q Consensus 105 ~~YL~~~~~~~~~L~p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~--~~~~~~~~~~l~-le~~L~~~ 181 (215)
++||+++|++ |+|.++.+|+++++|+.|..+.+ +.+...+............. ......+.+.+. +|.+|.++
T Consensus 122 l~YL~~~~~~---L~P~~~~era~v~~wl~~~~~~~-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~L~~le~~L~~~ 197 (264)
T PRK11752 122 LLYLAEKFGA---FLPKDLAARTETLNWLFWQQGSA-PFLGGGFGHFYAYAPEKIEYAINRFTMEAKRQLDVLDKQLAEH 197 (264)
T ss_pred HHHHHHhcCC---cCCCCHHHHHHHHHHHHHHhhhh-hHHHHHHHHHHHhCCccchHHHHHHHHHHHHHHHHHHHHhccC
Confidence 9999999973 99999999999999999986653 21111111110011111111 111223445555 68888888
Q ss_pred cCCCCCCCCHhHHhhCC
Q psy10373 182 DLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 182 ~fl~Gd~~T~ADi~l~P 198 (215)
+|++||++|+|||++.|
T Consensus 198 ~fl~Gd~~TlADi~l~~ 214 (264)
T PRK11752 198 EYIAGDEYTIADIAIWP 214 (264)
T ss_pred CCCCCCccCHHHHHHHH
Confidence 99999999999999854
No 11
>PRK10357 putative glutathione S-transferase; Provisional
Probab=99.77 E-value=8.1e-20 Score=146.05 Aligned_cols=149 Identities=11% Similarity=0.038 Sum_probs=103.2
Q ss_pred hHHHHhhCCCCcccccceeecccccccccceeeccCCc----CCCCcceecC---CCCeeeeeHHHHHHHHHHHhCCCCC
Q psy10373 45 GFLNTFLASSPWVAGDNITIADCSIVASLSTIECSTSD----HMASQTRHPG---NLLVLMFSSRAIIAYLAEQYGKDDS 117 (215)
Q Consensus 45 ~~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e----~~~P~GkVPv---ddg~~L~ES~AI~~YL~~~~~~~~~ 117 (215)
+++++..+.++.++.+.|...|++++. + .++...++ ..||+|+||| +||.+|+||.||++||++++++. .
T Consensus 2 ~Ly~~~~s~~~~~v~~~L~~~gv~ye~-~-~~~~~~~~~~~~~~nP~g~vP~L~~~~g~~l~eS~aI~~yL~~~~~~~-~ 78 (202)
T PRK10357 2 KLIGSYTSPFVRKISILLLEKGITFEF-V-NELPYNADNGVAQYNPLGKVPALVTEEGECWFDSPIIAEYIELLNVAP-A 78 (202)
T ss_pred eeecCCCCchHHHHHHHHHHcCCCCeE-E-ecCCCCCchhhhhcCCccCCCeEEeCCCCeeecHHHHHHHHHHhCCCC-C
Confidence 445555666677788888888988765 2 23544433 3479999999 57899999999999999998754 4
Q ss_pred CCCCCHHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCc--hHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHH
Q psy10373 118 LYPKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAP--CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFL 194 (215)
Q Consensus 118 L~p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~--~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi 194 (215)
|+|.++.+++++++|+.|.++.+...+...+.... ........ ......+...+. +|.+|.+++ ++||++|+||+
T Consensus 79 l~p~~~~~~a~~~~~~~~~~~~~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~l~~~l~~le~~L~~~~-l~Gd~~t~ADi 156 (202)
T PRK10357 79 MLPRDPLAALRVRQLEALADGIMDAALVSVREQAR-PAAQQSEDELLRQREKINRSLDALEGYLVDGT-LKTDTVNLATI 156 (202)
T ss_pred CCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHhC-ccccccHHHHHHHHHHHHHHHHHHHHhhccCc-ccCCCcCHHHH
Confidence 99999999999999999987766554332222111 11111111 112234445555 688888777 99999999999
Q ss_pred hhCC
Q psy10373 195 KLNP 198 (215)
Q Consensus 195 ~l~P 198 (215)
++.+
T Consensus 157 ~l~~ 160 (202)
T PRK10357 157 AIAC 160 (202)
T ss_pred HHHH
Confidence 9844
No 12
>TIGR01262 maiA maleylacetoacetate isomerase. Maleylacetoacetate isomerase is an enzyme of tyrosine and phenylalanine catabolism. It requires glutathione and belongs by homology to the zeta family of glutathione S-transferases. The enzyme (EC 5.2.1.2) is described as active also on maleylpyruvate, and the example from a Ralstonia sp. catabolic plasmid is described as a maleylpyruvate isomerase involved in gentisate catabolism.
Probab=99.74 E-value=4.1e-19 Score=142.63 Aligned_cols=145 Identities=16% Similarity=0.077 Sum_probs=96.8
Q ss_pred hCCCCcccccceeecccccccccceeec-cCCc-------CCCCcceecC--CCCeeeeeHHHHHHHHHHHhCCCCCCCC
Q psy10373 51 LASSPWVAGDNITIADCSIVASLSTIEC-STSD-------HMASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKDDSLYP 120 (215)
Q Consensus 51 ~~g~~y~~~~~l~l~~~~~~~~~~~~~~-~~~e-------~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~~~L~p 120 (215)
.+.++.++.+.|...++++.. ..++. .+++ ..||+|+||+ +||.+|+||.||++||+++++.. .|+|
T Consensus 7 ~s~~~~~v~~~l~~~gi~~~~--~~v~~~~~~~~~~~~~~~~nP~g~vP~L~~~g~~l~ES~aI~~yl~~~~~~~-~l~p 83 (210)
T TIGR01262 7 RSSCSYRVRIALALKGIDYEY--VPVNLLRDGEQRSPEFLALNPQGLVPTLDIDGEVLTQSLAIIEYLEETYPDP-PLLP 83 (210)
T ss_pred CCCchHHHHHHHHHCCCCceE--EecccccccccCChhhhhcCCCCcCCEEEECCEEeecHHHHHHHHHHhCCCC-CCCC
Confidence 345666677777777777654 22354 2112 3359999999 88999999999999999999854 4999
Q ss_pred CCHHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCc---hHHHHHHHHHcC-CCcEEEe--ccCCCCCCCCHhHH
Q psy10373 121 KDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAP---CRAVQLAAAQIG-VPLNLKH--TDLMKGEHLTPEFL 194 (215)
Q Consensus 121 ~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~---~~~~~~~~~~l~-le~~L~~--~~fl~Gd~~T~ADi 194 (215)
.++.+|+++++|+.+.++.+.+................... ....+.+.+.++ +|.+|++ .+|++|+++|+||+
T Consensus 84 ~~~~~~a~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~~~l~G~~~T~ADi 163 (210)
T TIGR01262 84 ADPIKRARVRALALLIACDIHPLNNLRVLQYLREKLGVEEEARNRWYQHWISKGFAALEALLQPHAGAFCVGDTPTLADL 163 (210)
T ss_pred CCHHHHHHHHHHHHHHhcccChhhhhhHHHHHHhhcCCCHHHHHHHHHHHHHHHHHHHHHHHhcCCCCEeeCCCCCHHHH
Confidence 99999999999999887666543221111010001000111 112233555566 5888875 45999999999999
Q ss_pred hhCC
Q psy10373 195 KLNP 198 (215)
Q Consensus 195 ~l~P 198 (215)
++.+
T Consensus 164 ~~~~ 167 (210)
T TIGR01262 164 CLVP 167 (210)
T ss_pred HHHH
Confidence 9844
No 13
>PRK10387 glutaredoxin 2; Provisional
Probab=99.66 E-value=8.3e-18 Score=135.03 Aligned_cols=146 Identities=15% Similarity=0.086 Sum_probs=95.2
Q ss_pred hCCCCcccccceeecccccccccceeecc---CCcCCCCcceecC---CCCeeeeeHHHHHHHHHHHhCCCCCCCCCCHH
Q psy10373 51 LASSPWVAGDNITIADCSIVASLSTIECS---TSDHMASQTRHPG---NLLVLMFSSRAIIAYLAEQYGKDDSLYPKDPK 124 (215)
Q Consensus 51 ~~g~~y~~~~~l~l~~~~~~~~~~~~~~~---~~e~~~P~GkVPv---ddg~~L~ES~AI~~YL~~~~~~~~~L~p~d~~ 124 (215)
.+.+|+|+.+.|...|++++. +. ++.. .....||+|+||| +||.+|+||.||++||+++|++. +++ . .
T Consensus 8 ~sp~~~kv~~~L~~~gi~y~~-~~-~~~~~~~~~~~~~p~~~VPvL~~~~g~~l~eS~aI~~yL~~~~~~~--~l~-~-~ 81 (210)
T PRK10387 8 HCPFCVKARMIFGLKNIPVEL-IV-LANDDEATPIRMIGQKQVPILQKDDGSYMPESLDIVHYIDELDGKP--LLT-G-K 81 (210)
T ss_pred CCchHHHHHHHHHHcCCCeEE-EE-cCCCchhhHHHhcCCcccceEEecCCeEecCHHHHHHHHHHhCCCc--cCC-C-c
Confidence 358889999999999988755 22 2221 1123458999999 68999999999999999999853 444 2 3
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCCCCC-----------------------chHHHHHHHHHcC-CCcEEEe
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSA-----------------------PCRAVQLAAAQIG-VPLNLKH 180 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~-----------------------~~~~~~~~~~~l~-le~~L~~ 180 (215)
+++.+++|+.+....+...+...+..... ...... .......+.+.++ +|.+|++
T Consensus 82 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~ 160 (210)
T PRK10387 82 RSPAIEEWLRKVFGYLNKLLYPRFAKADL-PEFATPSARQYFIDKKEASIGDFDALLAHTPGLIKEINADLRALDPLIVK 160 (210)
T ss_pred ccHHHHHHHHHHHHHhhcchhcccccCCC-cccCCHHHHHHHHHhHHhccCCHHHHHhcCHHHHHHHHHHHHHHHHHhcC
Confidence 68899999998866555433221111000 000000 0112234445555 5888876
Q ss_pred ccCCCCCCCCHhHHhhCCCCccceEE
Q psy10373 181 TDLMKGEHLTPEFLKLNPQHTVPTMD 206 (215)
Q Consensus 181 ~~fl~Gd~~T~ADi~l~P~g~lp~l~ 206 (215)
+|++||++|+||+.+ .+.+-++.
T Consensus 161 -~~l~G~~~s~ADi~l--~~~l~~~~ 183 (210)
T PRK10387 161 -PNAVNGELSTDDIHL--FPILRNLT 183 (210)
T ss_pred -ccccCCCCCHHHHHH--HHHHhcce
Confidence 999999999999999 44455444
No 14
>KOG0406|consensus
Probab=99.60 E-value=2.5e-16 Score=126.72 Aligned_cols=139 Identities=14% Similarity=0.130 Sum_probs=99.2
Q ss_pred CCcccc--cceeecccccccccceeecc-CCc---CCC-CcceecC--CCCeeeeeHHHHHHHHHHHhCCCCCCCCCCHH
Q psy10373 54 SPWVAG--DNITIADCSIVASLSTIECS-TSD---HMA-SQTRHPG--NLLVLMFSSRAIIAYLAEQYGKDDSLYPKDPK 124 (215)
Q Consensus 54 ~~y~~~--~~l~l~~~~~~~~~~~~~~~-~~e---~~~-P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~~~L~p~d~~ 124 (215)
++|--+ +.|.+-+++++. ..+|+. +.+ ++| |.+|||| |+|..|+||..|++||++.++.+++++|+||.
T Consensus 18 sPfa~R~~iaL~~KgI~yE~--veedl~~Ks~~ll~~np~hkKVPvL~Hn~k~i~ESliiveYiDe~w~~~~~iLP~DPy 95 (231)
T KOG0406|consen 18 SPFAQRVRIALKLKGIPYEY--VEEDLTNKSEWLLEKNPVHKKVPVLEHNGKPICESLIIVEYIDETWPSGPPILPSDPY 95 (231)
T ss_pred ChHHHHHHHHHHhcCCceEE--EecCCCCCCHHHHHhccccccCCEEEECCceehhhHHHHHHHHhhccCCCCCCCCCHH
Confidence 455554 444444555444 455776 555 446 8999999 99999999999999999999966679999999
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEE-eccCCCCCCCCHhHHhhCCC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLK-HTDLMKGEHLTPEFLKLNPQ 199 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~-~~~fl~Gd~~T~ADi~l~P~ 199 (215)
+||+.+.|+.+.+..++.....+.. .................+. +|..|. +.+|+.|++++..|+.+.|+
T Consensus 96 ~Ra~arfwa~~id~~~~~~~~~~~~-----~~~~e~~~~~~~e~~e~l~~lE~el~k~k~~fgG~~~G~vDi~~~p~ 167 (231)
T KOG0406|consen 96 ERAQARFWAEYIDKKVFFVGRFVVA-----AKGGEEQEAAKEELREALKVLEEELGKGKDFFGGETIGFVDIAIGPS 167 (231)
T ss_pred HHHHHHHHHHHHHhHHHHHHHHHHh-----hcCchHHHHHHHHHHHHHHHHHHHHhcCCCCCCCCCcCHhhhhHHhh
Confidence 9999999999988766544322211 1111222333444555565 577777 88999999999999999543
No 15
>PTZ00057 glutathione s-transferase; Provisional
Probab=99.60 E-value=2.2e-17 Score=132.56 Aligned_cols=140 Identities=13% Similarity=0.085 Sum_probs=90.8
Q ss_pred HhHHHHh-hCCCCcccccceeecccccccccceeeccCCc----------CCCCcceecC--CCCeeeeeHHHHHHHHHH
Q psy10373 44 LGFLNTF-LASSPWVAGDNITIADCSIVASLSTIECSTSD----------HMASQTRHPG--NLLVLMFSSRAIIAYLAE 110 (215)
Q Consensus 44 ~~~l~~~-~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e----------~~~P~GkVPv--ddg~~L~ES~AI~~YL~~ 110 (215)
++ |+.+ .+|++.++++.|+..|++++.. .+ +....+ ..||+|+||+ +||.+|+||.||++||++
T Consensus 5 ~~-L~y~~~~~~~~~vrl~L~~~gi~ye~~-~~-~~~~~~~~~~~~~~~~~~nP~g~vP~L~~~~~~l~eS~AI~~YLa~ 81 (205)
T PTZ00057 5 IV-LYYFDARGKAELIRLIFAYLGIEYTDK-RF-GENGDAFIEFKNFKKEKDTPFEQVPILEMDNIIFAQSQAIVRYLSK 81 (205)
T ss_pred eE-EEecCCCcchHHHHHHHHHcCCCeEEE-ec-cccchHHHHHHhccccCCCCCCCCCEEEECCEEEecHHHHHHHHHH
Confidence 44 3455 5799999999999999998762 22 211111 3689999999 889999999999999999
Q ss_pred HhCCCCCCCCCCHHHHHHHHHHHhhhcc-ccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEec--cCCCC
Q psy10373 111 QYGKDDSLYPKDPKARGIVNQRLYFDIG-TLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHT--DLMKG 186 (215)
Q Consensus 111 ~~~~~~~L~p~d~~era~v~~wl~~~~~-~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~--~fl~G 186 (215)
+|+ +.+.+ +++++..|+.+... .+...+... .... . .........+.+.++ +|..|+++ +|++|
T Consensus 82 ~~~----~~~~~--~~~~~~~~~~~~~~~~~~~~~~~~----~~~~-~-~~~~~~~~~~~~~l~~le~~L~~~~~~~l~G 149 (205)
T PTZ00057 82 KYK----ICGES--ELNEFYADMIFCGVQDIHYKFNNT----NLFK-Q-NETTFLNEELPKWSGYFENILKKNHCNYFVG 149 (205)
T ss_pred HcC----CCCCC--HHHHHHHHHHHHHHHHHHHHHhhh----HHHH-H-HHHHHHHHHHHHHHHHHHHHHHhCCCCeeeC
Confidence 997 44444 45555667766542 332211110 0000 0 011112234445555 57777644 79999
Q ss_pred CCCCHhHHhhCC
Q psy10373 187 EHLTPEFLKLNP 198 (215)
Q Consensus 187 d~~T~ADi~l~P 198 (215)
+++|+||+++.+
T Consensus 150 d~~T~AD~~l~~ 161 (205)
T PTZ00057 150 DNLTYADLAVFN 161 (205)
T ss_pred CcccHHHHHHHH
Confidence 999999999854
No 16
>PLN02378 glutathione S-transferase DHAR1
Probab=99.59 E-value=6.2e-16 Score=124.93 Aligned_cols=128 Identities=18% Similarity=0.181 Sum_probs=84.4
Q ss_pred CCCcccccceeecccccccccceeeccCCc----CCCCcceecC--CCCeeeeeHHHHHHHHHHHhCCCCCCCCCCHHHH
Q psy10373 53 SSPWVAGDNITIADCSIVASLSTIECSTSD----HMASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKDDSLYPKDPKAR 126 (215)
Q Consensus 53 g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e----~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~~~L~p~d~~er 126 (215)
.++.++.+.|...+++++. ..+|+.+++ ..||+|+||+ +||.+|+||.||++||+++|+.. .+ .++.+|
T Consensus 21 p~~~rv~~~L~e~gl~~e~--~~v~~~~~~~~~l~inP~G~VPvL~~~~~~l~ES~aI~~YL~~~~~~~-~l--~~~~~~ 95 (213)
T PLN02378 21 PFSQRALLTLEEKSLTYKI--HLINLSDKPQWFLDISPQGKVPVLKIDDKWVTDSDVIVGILEEKYPDP-PL--KTPAEF 95 (213)
T ss_pred cchHHHHHHHHHcCCCCeE--EEeCcccCCHHHHHhCCCCCCCEEEECCEEecCHHHHHHHHHHhCCCC-CC--CCHHHH
Confidence 4555666666666666543 455776544 3469999999 78899999999999999999853 24 467889
Q ss_pred HHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEE--eccCCCCCCCCHhHHhhCCC
Q psy10373 127 GIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLK--HTDLMKGEHLTPEFLKLNPQ 199 (215)
Q Consensus 127 a~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~--~~~fl~Gd~~T~ADi~l~P~ 199 (215)
+++.++++.. +..++. ... .. ........+.+. +|.+|+ +++|++||++|+||+++.|.
T Consensus 96 a~i~~~~~~~-------~~~~~~-----~~~-~~-~~~~~~~~~~l~~le~~L~~~~~~fl~Gd~~T~ADi~l~~~ 157 (213)
T PLN02378 96 ASVGSNIFGT-------FGTFLK-----SKD-SN-DGSEHALLVELEALENHLKSHDGPFIAGERVSAVDLSLAPK 157 (213)
T ss_pred HHHHHHHHHH-------HHHHHh-----cCC-hh-hHHHHHHHHHHHHHHHHHhcCCCCCcCCCCCchhhHHHHHH
Confidence 9888765421 111111 111 11 112233334454 577776 46899999999999998654
No 17
>TIGR02182 GRXB Glutaredoxin, GrxB family. This model includes the highly abundant E. coli GrxB (Grx2) glutaredoxin which is notably longer than either GrxA or GrxC. Unlike the other two E. coli glutaredoxins, GrxB appears to be unable to reduce ribonucleotide reductase, and may have more to do with resistance to redox stress.
Probab=99.55 E-value=1.5e-15 Score=122.41 Aligned_cols=148 Identities=13% Similarity=0.028 Sum_probs=94.7
Q ss_pred HhhCCCCcccccceeecccccccccceeeccCCc-----CCCCcceecC---CCCeeeeeHHHHHHHHHHHhCCCCCCCC
Q psy10373 49 TFLASSPWVAGDNITIADCSIVASLSTIECSTSD-----HMASQTRHPG---NLLVLMFSSRAIIAYLAEQYGKDDSLYP 120 (215)
Q Consensus 49 ~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e-----~~~P~GkVPv---ddg~~L~ES~AI~~YL~~~~~~~~~L~p 120 (215)
...+.+|+|+.+.|...|++++. + ++..++ ..||.|+||+ +||.+|+||.+|++||+++|+.. +++
T Consensus 5 ~~~sp~~~kvr~~L~~~gl~~e~-~---~~~~~~~~~~~~~np~g~vP~l~~~~g~~l~es~~I~~yL~~~~~~~--~~~ 78 (209)
T TIGR02182 5 YDHCPFCVRARMIFGLKNIPVEK-H---VLLNDDEETPIRMIGAKQVPILQKDDGRAMPESLDIVAYFDKLDGEP--LLT 78 (209)
T ss_pred CCCCChHHHHHHHHHHcCCCeEE-E---ECCCCcchhHHHhcCCCCcceEEeeCCeEeccHHHHHHHHHHhCCCc--cCC
Confidence 33457788889999999998765 2 222332 4569999999 67899999999999999999752 443
Q ss_pred CCHHHHHHHHHHHhhhccccchhcccceeecccc------------CCC-C---CC------chHHHHHHHHHcC-CCcE
Q psy10373 121 KDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFY------------YVP-G---SA------PCRAVQLAAAQIG-VPLN 177 (215)
Q Consensus 121 ~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~------------~~~-~---~~------~~~~~~~~~~~l~-le~~ 177 (215)
+.+++++++|+.+....+...+...+...... +.. . .. .......+.+.++ +|.+
T Consensus 79 --~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~g~~~~~~~~~~~~~~~~~~~l~~le~~ 156 (209)
T TIGR02182 79 --GKVSPEIEAWLRKVTGYANKLLLPRFAKSDLPEFATQSARKYFTDKKEASAGNFSALLNHTPGLLEEINADLEELDKL 156 (209)
T ss_pred --CCChHHHHHHHHHHHHHhhhhhccccccCCCcccCCHHHHHHHHHHHHHhcCCHHHHHccCHHHHHHHHHHHHHHHHH
Confidence 22567888998775555443322211110000 000 0 00 0122334555566 6999
Q ss_pred EEeccCCCCCCCCHhHHhhCCCCccceEEe
Q psy10373 178 LKHTDLMKGEHLTPEFLKLNPQHTVPTMDD 207 (215)
Q Consensus 178 L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~ 207 (215)
|.+++|+.| ++|+||+++ .+.+.++..
T Consensus 157 L~~~~~l~g-~~TiADi~l--~~~l~~~~~ 183 (209)
T TIGR02182 157 IDGPNAVNG-ELSEDDILV--FPLLRNLTL 183 (209)
T ss_pred HhCccccCC-CCCHHHHHH--HHHhcCeee
Confidence 999999955 699999999 444556653
No 18
>PLN02817 glutathione dehydrogenase (ascorbate)
Probab=99.52 E-value=5.9e-15 Score=122.97 Aligned_cols=127 Identities=13% Similarity=0.131 Sum_probs=83.2
Q ss_pred CCcccccceeecccccccccceeeccCC----cCCCCcceecC--CCCeeeeeHHHHHHHHHHHhCCCCCCCCCCHHHHH
Q psy10373 54 SPWVAGDNITIADCSIVASLSTIECSTS----DHMASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKDDSLYPKDPKARG 127 (215)
Q Consensus 54 ~~y~~~~~l~l~~~~~~~~~~~~~~~~~----e~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~~~L~p~d~~era 127 (215)
++.++.+.|...+++++. ..+|+... ..+||+|+||+ ++|.+|+||.||++||+++|+.. .+ .++.+|+
T Consensus 75 ~s~rV~i~L~ekgi~ye~--~~vdl~~~~~~fl~iNP~GkVPvL~~d~~~L~ES~aI~~YL~e~~p~~-~L--~~~~era 149 (265)
T PLN02817 75 FCQRVLLTLEEKHLPYDM--KLVDLTNKPEWFLKISPEGKVPVVKLDEKWVADSDVITQALEEKYPDP-PL--ATPPEKA 149 (265)
T ss_pred HHHHHHHHHHHcCCCCEE--EEeCcCcCCHHHHhhCCCCCCCEEEECCEEEecHHHHHHHHHHHCCCC-CC--CCHHHHH
Confidence 344555666666776544 33455432 24579999999 77889999999999999999864 35 3678999
Q ss_pred HHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEE-eccCCCCCCCCHhHHhhCCC
Q psy10373 128 IVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLK-HTDLMKGEHLTPEFLKLNPQ 199 (215)
Q Consensus 128 ~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~-~~~fl~Gd~~T~ADi~l~P~ 199 (215)
++++|++..- ..++. .. .+.....+.+...+. +|.+|+ +++|++|+++|+||+++.|.
T Consensus 150 ~i~~~l~~~~-------~~~~~-----~~--~~~~~~~~~l~~~l~~LE~~L~~~g~yl~Gd~~SlADi~l~p~ 209 (265)
T PLN02817 150 SVGSKIFSTF-------IGFLK-----SK--DPGDGTEQALLDELTSFDDYIKENGPFINGEKISAADLSLGPK 209 (265)
T ss_pred HHHHHHHHHH-------HHHhc-----cC--CcchHHHHHHHHHHHHHHHHHhcCCCeeCCCCCCHHHHHHHHH
Confidence 9999875321 11111 11 111111223334444 577776 36999999999999999663
No 19
>TIGR00862 O-ClC intracellular chloride channel protein. These proteins are thought to function in the regulation of the membrane potential and in transepithelial ion absorption and secretion in the kidney.
Probab=99.50 E-value=8.8e-15 Score=119.76 Aligned_cols=131 Identities=16% Similarity=0.147 Sum_probs=78.2
Q ss_pred CCcccccceeecccccccccceeeccCC--c--CCCCcceecC--CCCeeeeeHHHHHHHHHHHhCCC--CCCCCCCHHH
Q psy10373 54 SPWVAGDNITIADCSIVASLSTIECSTS--D--HMASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKD--DSLYPKDPKA 125 (215)
Q Consensus 54 ~~y~~~~~l~l~~~~~~~~~~~~~~~~~--e--~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~--~~L~p~d~~e 125 (215)
+++++.+.|.+.+++++. ..+|+.++ + .+||+|+||| |+|.+|+||.||++||+++|+++ +.+.|.++..
T Consensus 21 ~~~rv~i~L~ekgi~~e~--~~vd~~~~~~~fl~inP~g~vPvL~~~g~~l~ES~aI~eYL~e~~~~~~~p~l~p~~~~~ 98 (236)
T TIGR00862 21 FSQRLFMILWLKGVVFNV--TTVDLKRKPEDLQNLAPGTHPPFLTYNTEVKTDVNKIEEFLEETLCPPRYPKLSPKHPES 98 (236)
T ss_pred hHHHHHHHHHHcCCCcEE--EEECCCCCCHHHHHHCcCCCCCEEEECCEEeecHHHHHHHHHHHcCCCCCCCCCCCCHHH
Confidence 345555555665666544 44576553 2 3469999999 88999999999999999999742 2355566655
Q ss_pred HHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEE------------------eccCCCC
Q psy10373 126 RGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLK------------------HTDLMKG 186 (215)
Q Consensus 126 ra~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~------------------~~~fl~G 186 (215)
++...+ +.+.+..+. .+............+.+.++ +|.+|. +++|++|
T Consensus 99 ~~~~~~--------l~~~~~~~~-----~~~~~~~~~~~~~~l~~~l~~Le~~L~~~~~~~~~~~~~~~~~~~~~~f~~G 165 (236)
T TIGR00862 99 NTAGLD--------IFAKFSAYI-----KNSNPEANDNLEKGLLKALKKLDDYLNSPLPEEIDEDSAEDEKVSRRKFLDG 165 (236)
T ss_pred HHHHHH--------HHHHHHHHH-----HcCCHHHHHHHHHHHHHHHHHHHHHHhccccccccccccccccccCCCcccC
Confidence 554321 111111110 11111111111222333333 454443 6899999
Q ss_pred CCCCHhHHhhCCC
Q psy10373 187 EHLTPEFLKLNPQ 199 (215)
Q Consensus 187 d~~T~ADi~l~P~ 199 (215)
|++|+||+++.|.
T Consensus 166 d~~tlaD~~l~p~ 178 (236)
T TIGR00862 166 DELTLADCNLLPK 178 (236)
T ss_pred CccchhhHHHHHH
Confidence 9999999999664
No 20
>PLN02907 glutamate-tRNA ligase
Probab=99.47 E-value=2.1e-14 Score=133.65 Aligned_cols=116 Identities=13% Similarity=0.066 Sum_probs=88.5
Q ss_pred HHhhCCCCcccccceeecccccccccceeeccCCcCCCCcceecC---CCCeeeeeHHHHHHHHHHHhCCCCCCCCCCHH
Q psy10373 48 NTFLASSPWVAGDNITIADCSIVASLSTIECSTSDHMASQTRHPG---NLLVLMFSSRAIIAYLAEQYGKDDSLYPKDPK 124 (215)
Q Consensus 48 ~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~~P~GkVPv---ddg~~L~ES~AI~~YL~~~~~~~~~L~p~d~~ 124 (215)
++-..++++.+-..+...++++... . .+|+|+||+ +||.+|+||.||++||+++++.. .|+|.++.
T Consensus 6 y~~~~S~~~~v~~~L~~lgv~~e~~----~------~~p~GkVPvLv~ddG~~L~ES~AIl~YLa~~~p~~-~L~p~d~~ 74 (722)
T PLN02907 6 SFPPDSPPLAVIAAAKVAGVPLTID----P------SLKSGSAPTLLFSSGEKLTGTNVLLRYIARSASLP-GFYGQDAF 74 (722)
T ss_pred EECCCCChHHHHHHHHHcCCCcEEe----e------cCCCCCCcEEEECCCCEEECHHHHHHHHHHhCCCc-CCCCCCHH
Confidence 3344567787766677777776552 1 269999999 58899999999999999999754 49999999
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLN 197 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~ 197 (215)
+|+++++|+.|...... . ......+. +|.+|..++|++|+++|+||+.+.
T Consensus 75 erAqV~qWL~~~~~~~~-------------~----------~~l~~~L~~LE~~L~~rtYLvGd~lTLADIaL~ 125 (722)
T PLN02907 75 ESSQVDEWLDYAPTFSS-------------G----------SEFENACEYVDGYLASRTFLVGYSLTIADIAIW 125 (722)
T ss_pred HHHHHHHHHHHHhhccc-------------H----------HHHHHHHHHHHHHhccCCeecCCCCCHHHHHHH
Confidence 99999999998653110 0 01223344 578888899999999999999984
No 21
>KOG1695|consensus
Probab=99.37 E-value=8.3e-14 Score=111.21 Aligned_cols=139 Identities=15% Similarity=0.062 Sum_probs=84.6
Q ss_pred CCCcccccceeecccccccc-cceee-ccCCcCCCCcceecC--CCCeeeeeHHHHHHHHHHHhCCCCCCCCCCHHHHHH
Q psy10373 53 SSPWVAGDNITIADCSIVAS-LSTIE-CSTSDHMASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKDDSLYPKDPKARGI 128 (215)
Q Consensus 53 g~~y~~~~~l~l~~~~~~~~-~~~~~-~~~~e~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~~~L~p~d~~era~ 128 (215)
|-.=.+++.+.++|++++.. +...+ ..+-....|+||||+ .||..|.||.||++||+++|+ |.++++.|+++
T Consensus 13 G~ae~iR~lf~~a~v~fEd~r~~~~~~w~~~K~~~pfgqlP~l~vDg~~i~QS~AI~RyLArk~g----l~Gkt~~E~a~ 88 (206)
T KOG1695|consen 13 GLAEPIRLLFAYAGVSFEDKRITMEDAWEELKDKMPFGQLPVLEVDGKKLVQSRAILRYLARKFG----LAGKTEEEEAW 88 (206)
T ss_pred hhHHHHHHHHHhcCCCcceeeeccccchhhhcccCCCCCCCEEeECCEeeccHHHHHHHHHHHhC----cCCCCHHHHHH
Confidence 54556678889999998773 11111 111112249999999 779999999999999999998 99999999999
Q ss_pred HHHHHhhhccccchhcccceeeccccCCCCCCch-HHHHHHHHHcC-CCcEEE--eccCCCCCCCCHhHHhh
Q psy10373 129 VNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPC-RAVQLAAAQIG-VPLNLK--HTDLMKGEHLTPEFLKL 196 (215)
Q Consensus 129 v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~-~~~~~~~~~l~-le~~L~--~~~fl~Gd~~T~ADi~l 196 (215)
++....-...-....+...+.... .+....... .........+. ++..|. +++|++||.+|-||+.+
T Consensus 89 vD~i~d~~~D~~~~~~~~~~~~~~-~g~~~~~~~~~~~Pa~~~~~~~~~~~L~~~~sgflvGd~lT~aDl~i 159 (206)
T KOG1695|consen 89 VDMIVDQFKDFRWEIFRQPYTAPE-AGKSEEELDKLYLPAKPKYFKILEKILKKNKSGFLVGDKLTWADLVI 159 (206)
T ss_pred HHHHHHhhhhHHHHHHHHhhhhhh-hccchhhhhhhhccchHHHHHHHHHHHHhCCCCeeecCcccHHHHHH
Confidence 988765433222222222222111 111100000 11111122222 244444 45799999999999877
No 22
>cd03075 GST_N_Mu GST_N family, Class Mu subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The class Mu subfamily is composed of eukaryotic GSTs. In rats, at least six distinct class Mu subunits have been identified, with homologous genes in humans for five of these subunits. Class Mu GSTs can form homodimers and heterodimers, giving a large number of possible isoenzymes that can be formed, all with overlapping activities but different substrate specificities. They are the most abundant GSTs in human liver, skeletal muscle and brain, and are believed to provide protection against diseases inc
Probab=99.10 E-value=1.3e-11 Score=84.95 Aligned_cols=60 Identities=13% Similarity=0.043 Sum_probs=48.1
Q ss_pred hCCCCcccccceeecccccccccceeeccCCc------CC-------CCcceecC--CCCeeeeeHHHHHHHHHHHh
Q psy10373 51 LASSPWVAGDNITIADCSIVASLSTIECSTSD------HM-------ASQTRHPG--NLLVLMFSSRAIIAYLAEQY 112 (215)
Q Consensus 51 ~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e------~~-------~P~GkVPv--ddg~~L~ES~AI~~YL~~~~ 112 (215)
.+|+++++.+.|...+++++. ..+++.+++ .+ +|+|+||+ |||.+|+||.||++||+++|
T Consensus 8 ~~~~~~~~~~~l~~~gi~~e~--~~v~~~~~~~~~~~~~~~~~~~~~~P~g~vP~L~~~g~~l~ES~AIl~YLa~~~ 82 (82)
T cd03075 8 IRGLAQPIRLLLEYTGEKYEE--KRYELGDAPDYDRSQWLNEKFKLGLDFPNLPYYIDGDVKLTQSNAILRYIARKH 82 (82)
T ss_pred CccccHHHHHHHHHcCCCcEE--EEeccCCccccchHhhhccchhcCCcCCCCCEEEECCEEEeehHHHHHHHhhcC
Confidence 468999999999999998766 233665433 22 19999999 88999999999999999874
No 23
>cd03057 GST_N_Beta GST_N family, Class Beta subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Unlike mammalian GSTs which detoxify a broad range of compounds, the bacterial class Beta GSTs exhibit limited GSH conjugating activity with a narrow range of substrates. In addition to GSH conjugation, they also bind antibiotics and reduce the antimicrobial activity of beta-lactam drugs. The structure of the Proteus mirabilis enzyme reveals that the cysteine in the active site forms a covalent bond with GSH.
Probab=99.04 E-value=7.8e-11 Score=79.70 Aligned_cols=62 Identities=13% Similarity=0.065 Sum_probs=47.3
Q ss_pred hhCCCCcccccceeecccccccccceeeccCCcCC-------CCcceecC--CC-CeeeeeHHHHHHHHHHHhC
Q psy10373 50 FLASSPWVAGDNITIADCSIVASLSTIECSTSDHM-------ASQTRHPG--NL-LVLMFSSRAIIAYLAEQYG 113 (215)
Q Consensus 50 ~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~-------~P~GkVPv--dd-g~~L~ES~AI~~YL~~~~~ 113 (215)
+...+++++.+.|...++++.. ..++..+++++ ||+|+||+ ++ |..|+||.||++||+++|+
T Consensus 6 ~~~~~~~~v~~~l~~~~i~~~~--~~~~~~~~~~~~~~~~~~np~~~vP~l~~~~g~~l~eS~aI~~yL~~~~p 77 (77)
T cd03057 6 SPGACSLAPHIALEELGLPFEL--VRVDLRTKTQKGADYLAINPKGQVPALVLDDGEVLTESAAILQYLADLHP 77 (77)
T ss_pred CCCCchHHHHHHHHHcCCCceE--EEEecccCccCCHhHHHhCCCCCCCEEEECCCcEEEcHHHHHHHHHHhCc
Confidence 3444677888888888888654 33466655443 59999999 44 8999999999999999875
No 24
>cd03050 GST_N_Theta GST_N family, Class Theta subfamily; composed of eukaryotic class Theta GSTs and bacterial dichloromethane (DCM) dehalogenase. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Mammalian class Theta GSTs show poor GSH conjugating activity towards the standard substrates, CDNB and ethacrynic acid, differentiating them from other mammalian GSTs. GSTT1-1 shows similar cataytic activity as bacterial DCM dehalogenase, catalyzing the GSH-dependent hydrolytic dehalogenation of dihalomethanes. This is an essential process in methylotrophic bacteria to enable them to use chloromethane and DC
Probab=99.04 E-value=3.3e-11 Score=81.40 Aligned_cols=65 Identities=12% Similarity=0.207 Sum_probs=48.9
Q ss_pred HHHHhhCCCCcccccceeecccccccccceeeccCCcC-------CCCcceecC--CCCeeeeeHHHHHHHHHHHh
Q psy10373 46 FLNTFLASSPWVAGDNITIADCSIVASLSTIECSTSDH-------MASQTRHPG--NLLVLMFSSRAIIAYLAEQY 112 (215)
Q Consensus 46 ~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~-------~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~ 112 (215)
+++...+.++.++.+.+...|+++.. ..++...+++ .||+|+||+ ++|.+|+||.||++||+++|
T Consensus 3 ly~~~~s~~~~~v~~~l~~~g~~~~~--~~v~~~~~~~~~~~~~~~~p~~~vP~L~~~~~~l~eS~aI~~Yl~~~~ 76 (76)
T cd03050 3 LYYDLMSQPSRAVYIFLKLNKIPFEE--CPIDLRKGEQLTPEFKKINPFGKVPAIVDGDFTLAESVAILRYLARKF 76 (76)
T ss_pred EeeCCCChhHHHHHHHHHHcCCCcEE--EEecCCCCCcCCHHHHHhCcCCCCCEEEECCEEEEcHHHHHHHHHhhC
Confidence 34444556777777878888888655 3346655543 359999999 88899999999999999875
No 25
>cd03046 GST_N_GTT1_like GST_N family, Saccharomyces cerevisiae GTT1-like subfamily; composed of predominantly uncharacterized proteins with similarity to the S. cerevisiae GST protein, GTT1, and the Schizosaccharomyces pombe GST-III. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GTT1, a homodimer, exhibits GST activity with standard substrates and associates with the endoplasmic reticulum. Its expression is induced after diauxic shift and remains high throughout the stationary phase. S. pomb
Probab=99.02 E-value=8.2e-11 Score=79.17 Aligned_cols=62 Identities=19% Similarity=0.172 Sum_probs=48.4
Q ss_pred hhCCCCcccccceeecccccccccceeeccCCc-------CCCCcceecC--CCCeeeeeHHHHHHHHHHHhC
Q psy10373 50 FLASSPWVAGDNITIADCSIVASLSTIECSTSD-------HMASQTRHPG--NLLVLMFSSRAIIAYLAEQYG 113 (215)
Q Consensus 50 ~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e-------~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~ 113 (215)
+..+++.++.+.+...+++++. ..+|..+++ ..||+|+||+ ++|.+|+||.||++||+++|+
T Consensus 6 ~~~~~~~~v~~~l~~~~i~~~~--~~~~~~~~~~~~~~~~~~~p~~~vP~l~~~g~~l~es~aI~~yL~~~~~ 76 (76)
T cd03046 6 LPRSRSFRILWLLEELGLPYEL--VLYDRGPGEQAPPEYLAINPLGKVPVLVDGDLVLTESAAIILYLAEKYG 76 (76)
T ss_pred CCCCChHHHHHHHHHcCCCcEE--EEeCCCCCccCCHHHHhcCCCCCCCEEEECCEEEEcHHHHHHHHHHhCc
Confidence 4456788888888888888765 233554333 3459999999 889999999999999999874
No 26
>cd03048 GST_N_Ure2p_like GST_N family, Ure2p-like subfamily; composed of the Saccharomyces cerevisiae Ure2p and related GSTs. Ure2p is a regulator for nitrogen catabolism in yeast. It represses the expression of several gene products involved in the use of poor nitrogen sources when rich sources are available. A transmissible conformational change of Ure2p results in a prion called [Ure3], an inactive, self-propagating and infectious amyloid. Ure2p displays a GST fold containing an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The N-terminal TRX-fold domain is sufficient to induce the [Ure3] phenotype and is also called the prion domain of Ure2p. In addition to its role in nitrogen regulation, Ure2p confers protection to cells against heavy metal ion and oxidant toxicity, and shows glutathione (GSH) peroxidase activity. Characterized GSTs in this subfamily include Aspergillus fumigatus GSTs 1 and 2, and
Probab=99.00 E-value=1.2e-10 Score=79.67 Aligned_cols=63 Identities=21% Similarity=0.285 Sum_probs=48.7
Q ss_pred hhCCCCcccccceeecccccccccceeeccCCcCC-------CCcceecC--CC---CeeeeeHHHHHHHHHHHhCC
Q psy10373 50 FLASSPWVAGDNITIADCSIVASLSTIECSTSDHM-------ASQTRHPG--NL---LVLMFSSRAIIAYLAEQYGK 114 (215)
Q Consensus 50 ~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~-------~P~GkVPv--dd---g~~L~ES~AI~~YL~~~~~~ 114 (215)
+.+.+++++.+.|...|+++.. ..+++.+++++ ||+|+||+ ++ |..|+||.||++||+++|++
T Consensus 7 ~~~~~~~~v~~~l~~~gl~~~~--~~~~~~~~~~~~~~~~~~~p~~~vP~l~~~~~~g~~l~eS~aI~~yL~~~~~~ 81 (81)
T cd03048 7 HGTPNGFKVSIMLEELGLPYEI--HPVDISKGEQKKPEFLKINPNGRIPAIVDHNGTPLTVFESGAILLYLAEKYDK 81 (81)
T ss_pred CCCCChHHHHHHHHHcCCCcEE--EEecCcCCcccCHHHHHhCcCCCCCEEEeCCCCceEEEcHHHHHHHHHHHhCC
Confidence 3346788888888888888655 33465555443 59999999 54 89999999999999999873
No 27
>cd03045 GST_N_Delta_Epsilon GST_N family, Class Delta and Epsilon subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The class Delta and Epsilon subfamily is made up primarily of insect GSTs, which play major roles in insecticide resistance by facilitating reductive dehydrochlorination of insecticides or conjugating them with GSH to produce water-soluble metabolites that are easily excreted. They are also implicated in protection against cellular damage by oxidative stress.
Probab=98.98 E-value=5.9e-11 Score=79.51 Aligned_cols=63 Identities=14% Similarity=0.140 Sum_probs=48.8
Q ss_pred HHHHhhCCCCcccccceeecccccccccceeeccCCcC-------CCCcceecC--CCCeeeeeHHHHHHHHHH
Q psy10373 46 FLNTFLASSPWVAGDNITIADCSIVASLSTIECSTSDH-------MASQTRHPG--NLLVLMFSSRAIIAYLAE 110 (215)
Q Consensus 46 ~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~-------~~P~GkVPv--ddg~~L~ES~AI~~YL~~ 110 (215)
+++...+.++.++.+.|...|++++. ..+++.++++ .||+|+||+ ++|.+|+||.||++||++
T Consensus 3 Ly~~~~~~~~~~v~~~l~~~gi~~e~--~~i~~~~~~~~~~~~~~~~p~~~vP~l~~~~~~l~es~aI~~yL~~ 74 (74)
T cd03045 3 LYYLPGSPPCRAVLLTAKALGLELNL--KEVNLMKGEHLKPEFLKLNPQHTVPTLVDNGFVLWESHAILIYLVE 74 (74)
T ss_pred EEeCCCCCcHHHHHHHHHHcCCCCEE--EEecCccCCcCCHHHHhhCcCCCCCEEEECCEEEEcHHHHHHHHhC
Confidence 33444567888899999999998766 2346655543 359999999 789999999999999974
No 28
>cd03052 GST_N_GDAP1 GST_N family, Ganglioside-induced differentiation-associated protein 1 (GDAP1) subfamily; GDAP1 was originally identified as a highly expressed gene at the differentiated stage of GD3 synthase-transfected cells. More recently, mutations in GDAP1 have been reported to cause both axonal and demyelinating autosomal-recessive Charcot-Marie-Tooth (CMT) type 4A neuropathy. CMT is characterized by slow and progressive weakness and atrophy of muscles. Sequence analysis of GDAP1 shows similarities and differences with GSTs; it appears to contain both N-terminal TRX-fold and C-terminal alpha helical domains of GSTs, however, it also contains additional C-terminal transmembrane domains unlike GSTs. GDAP1 is mainly expressed in neuronal cells and is localized in the mitochondria through its transmembrane domains. It does not exhibit GST activity using standard substrates.
Probab=98.98 E-value=5.8e-11 Score=79.84 Aligned_cols=62 Identities=15% Similarity=0.038 Sum_probs=46.9
Q ss_pred HHHHhhCCCCcccccceeecccccccccceeeccCCcCC-------CCcceecC--CCCeeeeeHHHHHHHHH
Q psy10373 46 FLNTFLASSPWVAGDNITIADCSIVASLSTIECSTSDHM-------ASQTRHPG--NLLVLMFSSRAIIAYLA 109 (215)
Q Consensus 46 ~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~-------~P~GkVPv--ddg~~L~ES~AI~~YL~ 109 (215)
+++.-.+.+++++.+.|...|++++. ..+++.+++++ ||+|+||+ +||.+|+||.||++||+
T Consensus 3 ly~~~~s~~s~rv~~~L~e~gl~~e~--~~v~~~~~~~~~~~~~~inP~g~vP~L~~~g~~l~Es~aI~~yLe 73 (73)
T cd03052 3 LYHWTQSFSSQKVRLVIAEKGLRCEE--YDVSLPLSEHNEPWFMRLNPTGEVPVLIHGDNIICDPTQIIDYLE 73 (73)
T ss_pred EecCCCCccHHHHHHHHHHcCCCCEE--EEecCCcCccCCHHHHHhCcCCCCCEEEECCEEEEcHHHHHHHhC
Confidence 34444456677888878888887655 33476666544 59999999 89999999999999984
No 29
>cd03077 GST_N_Alpha GST_N family, Class Alpha subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The class Alpha subfamily is composed of eukaryotic GSTs which can form homodimer and heterodimers. There are at least six types of class Alpha GST subunits in rats, four of which have human counterparts, resulting in many possible isoenzymes with different activities, tissue distribution and substrate specificities. Human GSTA1-1 and GSTA2-2 show high GSH peroxidase activity. GSTA3-3 catalyzes the isomerization of intermediates in steroid hormone biosynthesis. GSTA4-4 preferentially catalyzes the
Probab=98.98 E-value=5.4e-11 Score=81.18 Aligned_cols=61 Identities=16% Similarity=0.110 Sum_probs=47.5
Q ss_pred hCCCCcccccceeecccccccccceeeccCC-cCC-----CCcceecC--CCCeeeeeHHHHHHHHHHHhC
Q psy10373 51 LASSPWVAGDNITIADCSIVASLSTIECSTS-DHM-----ASQTRHPG--NLLVLMFSSRAIIAYLAEQYG 113 (215)
Q Consensus 51 ~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~-e~~-----~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~ 113 (215)
.+|++.++.+.++..|++++. + .+|...+ +.. .|+|+||+ +||.+|+||.||++||+++|+
T Consensus 9 ~~~~~~~v~~~l~~~gi~~e~-~-~v~~~~~~~~~~~~~~~~~g~vP~L~~~g~~l~ES~AI~~YL~~~~~ 77 (79)
T cd03077 9 GRGRMESIRWLLAAAGVEFEE-K-FIESAEDLEKLKKDGSLMFQQVPMVEIDGMKLVQTRAILNYIAGKYN 77 (79)
T ss_pred CCChHHHHHHHHHHcCCCcEE-E-EeccHHHHHhhccccCCCCCCCCEEEECCEEEeeHHHHHHHHHHHcC
Confidence 348889999999999998765 2 2243221 112 36999999 889999999999999999987
No 30
>PF02798 GST_N: Glutathione S-transferase, N-terminal domain; InterPro: IPR004045 In eukaryotes, glutathione S-transferases (GSTs) participate in the detoxification of reactive electrophillic compounds by catalysing their conjugation to glutathione. The GST domain is also found in S-crystallins from squid, and proteins with no known GST activity, such as eukaryotic elongation factors 1-gamma and the HSP26 family of stress-related proteins, which include auxin-regulated proteins in plants and stringent starvation proteins in Escherichia coli. The major lens polypeptide of Cephalopoda is also a GST [, , , ]. Bacterial GSTs of known function often have a specific, growth-supporting role in biodegradative metabolism: epoxide ring opening and tetrachlorohydroquinone reductive dehalogenation are two examples of the reactions catalysed by these bacterial GSTs. Some regulatory proteins, like the stringent starvation proteins, also belong to the GST family [, ]. GST seems to be absent from Archaea in which gamma-glutamylcysteine substitute to glutathione as major thiol. Soluble GSTs activate glutathione (GSH) to GS-. In many GSTs, this is accomplished by a Tyr at H-bonding distance from the sulphur of GSH. These enzymes catalyse nucleophilic attack by reduced glutathione (GSH) on nonpolar compounds that contain an electrophillic carbon, nitrogen, or sulphur atom []. Glutathione S-transferases form homodimers, but in eukaryotes can also form heterodimers of the A1 and A2 or YC1 and YC2 subunits. The homodimeric enzymes display a conserved structural fold, with each monomer composed of two distinct domains []. The N-terminal domain forms a thioredoxin-like fold that binds the glutathione moiety, while the C-terminal domain contains several hydrophobic alpha-helices that specifically bind hydrophobic substrates. This entry represents the N-terminal domain of GST.; GO: 0005515 protein binding; PDB: 2VCT_H 2WJU_B 4ACS_A 1BYE_D 1AXD_B 2VCV_P 1TDI_A 1JLV_D 1Y6E_A 1U88_B ....
Probab=98.97 E-value=2.3e-10 Score=77.51 Aligned_cols=56 Identities=14% Similarity=0.143 Sum_probs=45.5
Q ss_pred CCCcccccceeecccccccccceeeccCCcCC-------CCc-ceecC--CC-CeeeeeHHHHHHHHHH
Q psy10373 53 SSPWVAGDNITIADCSIVASLSTIECSTSDHM-------ASQ-TRHPG--NL-LVLMFSSRAIIAYLAE 110 (215)
Q Consensus 53 g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~-------~P~-GkVPv--dd-g~~L~ES~AI~~YL~~ 110 (215)
|++.++.+.++..|++++. ..+|+..++++ ||+ |+||+ |+ |.+|+||.||++||++
T Consensus 10 ~~~~~~r~~l~~~gv~~e~--~~v~~~~~~~~~~e~~~~~p~~g~vP~l~~~~~~~l~es~AI~~YLa~ 76 (76)
T PF02798_consen 10 GRSERIRLLLAEKGVEYED--VRVDFEKGEHKSPEFLAINPMFGKVPALEDGDGFVLTESNAILRYLAR 76 (76)
T ss_dssp TTTHHHHHHHHHTT--EEE--EEEETTTTGGGSHHHHHHTTTSSSSSEEEETTTEEEESHHHHHHHHHH
T ss_pred CchHHHHHHHHHhcccCce--EEEecccccccchhhhhcccccceeeEEEECCCCEEEcHHHHHHHhCC
Confidence 6888889988988888766 44588777754 399 99999 66 9999999999999986
No 31
>cd03038 GST_N_etherase_LigE GST_N family, Beta etherase LigE subfamily; composed of proteins similar to Sphingomonas paucimobilis beta etherase, LigE, a GST-like protein that catalyzes the cleavage of the beta-aryl ether linkages present in low-moleculer weight lignins using GSH as the hydrogen donor. This reaction is an essential step in the degradation of lignin, a complex phenolic polymer that is the most abundant aromatic material in the biosphere. The beta etherase activity of LigE is enantioselective and it complements the activity of the other GST family beta etherase, LigF.
Probab=98.92 E-value=5.4e-10 Score=76.92 Aligned_cols=60 Identities=17% Similarity=0.125 Sum_probs=46.5
Q ss_pred CCCCcccccceeecccccccccceeeccCCcC------CCCcceecC--CC-CeeeeeHHHHHHHHHHHhC
Q psy10373 52 ASSPWVAGDNITIADCSIVASLSTIECSTSDH------MASQTRHPG--NL-LVLMFSSRAIIAYLAEQYG 113 (215)
Q Consensus 52 ~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~------~~P~GkVPv--dd-g~~L~ES~AI~~YL~~~~~ 113 (215)
|.+++|+.+.|...++++.. ..++..++++ .||.|+||+ ++ |.+|+||.||++||+++|+
T Consensus 16 Sp~~~kv~~~L~~~~i~~~~--~~~~~~~~~~~~~~~~~~p~~~vP~L~~~~~~~l~eS~aI~~yL~~~~p 84 (84)
T cd03038 16 SPNVWKTRLALNHKGLEYKT--VPVEFPDIPPILGELTSGGFYTVPVIVDGSGEVIGDSFAIAEYLEEAYP 84 (84)
T ss_pred CChhHHHHHHHHhCCCCCeE--EEecCCCcccccccccCCCCceeCeEEECCCCEEeCHHHHHHHHHHhCc
Confidence 46678888888888888755 2235443332 379999999 66 8999999999999999874
No 32
>cd03079 GST_N_Metaxin2 GST_N family, Metaxin subfamily, Metaxin 2; a metaxin 1 binding protein identified through a yeast two-hybrid system using metaxin 1 as the bait. Metaxin 2 shares sequence similarity with metaxin 1 but does not contain a C-terminal mitochondrial outer membrane signal-anchor domain. It associates with mitochondrial membranes through its interaction with metaxin 1, which is a component of the mitochondrial preprotein import complex of the outer membrane. The biological function of metaxin 2 is unknown. It is likely that it also plays a role in protein translocation into the mitochondria. However, this has not been experimentally validated. In a recent proteomics study, it has been shown that metaxin 2 is overexpressed in response to lipopolysaccharide-induced liver injury.
Probab=98.89 E-value=5.9e-10 Score=74.91 Aligned_cols=55 Identities=7% Similarity=0.074 Sum_probs=46.5
Q ss_pred CCCcccccceeecccccccccceeeccCCcCCCCcceecC--CCCeeeeeHHHHHHHHHHH
Q psy10373 53 SSPWVAGDNITIADCSIVASLSTIECSTSDHMASQTRHPG--NLLVLMFSSRAIIAYLAEQ 111 (215)
Q Consensus 53 g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~ 111 (215)
.+|+|+...|+.+|++++.. ++..+++++|.||||+ +||.+|+||.||+.||+++
T Consensus 18 ~~~~kv~~~L~elglpye~~----~~~~~~~~~P~GkVP~L~~dg~vI~eS~aIl~yL~~~ 74 (74)
T cd03079 18 ASCLAVQTFLKMCNLPFNVR----CRANAEFMSPSGKVPFIRVGNQIVSEFGPIVQFVEAK 74 (74)
T ss_pred CCHHHHHHHHHHcCCCcEEE----ecCCccccCCCCcccEEEECCEEEeCHHHHHHHHhcC
Confidence 45688888999999988662 5556678899999999 8899999999999999864
No 33
>cd03053 GST_N_Phi GST_N family, Class Phi subfamily; composed of plant-specific class Phi GSTs and related fungal and bacterial proteins. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The class Phi GST subfamily has experience extensive gene duplication. The Arabidopsis and Oryza genomes contain 13 and 16 Phi GSTs, respectively. They are primarily responsible for herbicide detoxification together with class Tau GSTs, showing class specificity in substrate preference. Phi enzymes are highly reactive toward chloroacetanilide and thiocarbamate herbicides. Some Phi GSTs have other functions including t
Probab=98.85 E-value=3.3e-10 Score=76.31 Aligned_cols=64 Identities=17% Similarity=0.201 Sum_probs=46.5
Q ss_pred HHHHhhCCCCcccccceeecccccccccceeeccCCcC-------CCCcceecC--CCCeeeeeHHHHHHHHHHH
Q psy10373 46 FLNTFLASSPWVAGDNITIADCSIVASLSTIECSTSDH-------MASQTRHPG--NLLVLMFSSRAIIAYLAEQ 111 (215)
Q Consensus 46 ~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~-------~~P~GkVPv--ddg~~L~ES~AI~~YL~~~ 111 (215)
+++...+.++.++.+.+...|+++.. ..++...+++ .||+|+||+ ++|..|+||.||++||+++
T Consensus 4 Ly~~~~s~~s~~v~~~l~~~~i~~~~--~~~~~~~~~~~~~~~~~~~P~~~vP~l~~~g~~l~es~aI~~yL~~~ 76 (76)
T cd03053 4 LYGAAMSTCVRRVLLCLEEKGVDYEL--VPVDLTKGEHKSPEHLARNPFGQIPALEDGDLKLFESRAITRYLAEK 76 (76)
T ss_pred EEeCCCChhHHHHHHHHHHcCCCcEE--EEeCccccccCCHHHHhhCCCCCCCEEEECCEEEEcHHHHHHHHhhC
Confidence 33344455677778888888887654 3345544433 359999999 8899999999999999874
No 34
>cd03061 GST_N_CLIC GST_N family, Chloride Intracellular Channel (CLIC) subfamily; composed of CLIC1-5, p64, parchorin and similar proteins. They are auto-inserting, self-assembling intracellular anion channels involved in a wide variety of functions including regulated secretion, cell division and apoptosis. They can exist in both water-soluble and membrane-bound states, and are found in various vesicles and membranes. Biochemical studies of the C. elegans homolog, EXC-4, show that the membrane localization domain is present in the N-terminal part of the protein. The structure of soluble human CLIC1 reveals that it is monomeric and it adopts a fold similar to GSTs, containing an N-terminal domain with a TRX fold and a C-terminal alpha helical domain. Upon oxidation, the N-terminal domain of CLIC1 undergoes a structural change to form a non-covalent dimer stabilized by the formation of an intramolecular disulfide bond between two cysteines that are far apart in the reduced form. The CLI
Probab=98.83 E-value=1.5e-09 Score=75.79 Aligned_cols=61 Identities=15% Similarity=0.153 Sum_probs=47.0
Q ss_pred CCcccccceeecccccccccceeeccC-Cc---CCCCcceecC--CCCeeeeeHHHHHHHHHHHhCC
Q psy10373 54 SPWVAGDNITIADCSIVASLSTIECST-SD---HMASQTRHPG--NLLVLMFSSRAIIAYLAEQYGK 114 (215)
Q Consensus 54 ~~y~~~~~l~l~~~~~~~~~~~~~~~~-~e---~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~ 114 (215)
++|..+..+.|+...+...+..+|+.. ++ .+||.|+||+ |+|.+|+||.+|++||+++++.
T Consensus 22 cpf~~rvrl~L~eKgi~ye~~~vd~~~~p~~~~~~nP~g~vPvL~~~~~~i~eS~~I~eYLde~~~~ 88 (91)
T cd03061 22 CPFCQRLFMVLWLKGVVFNVTTVDMKRKPEDLKDLAPGTQPPFLLYNGEVKTDNNKIEEFLEETLCP 88 (91)
T ss_pred ChhHHHHHHHHHHCCCceEEEEeCCCCCCHHHHHhCCCCCCCEEEECCEEecCHHHHHHHHHHHccC
Confidence 456666666666666666556667654 33 4579999999 8899999999999999999874
No 35
>cd03047 GST_N_2 GST_N family, unknown subfamily 2; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The sequence from Burkholderia cepacia was identified as part of a gene cluster involved in the degradation of 2,4,5-trichlorophenoxyacetic acid. Some GSTs (e.g. Class Zeta and Delta) are known to catalyze dechlorination reactions.
Probab=98.80 E-value=5.9e-10 Score=74.63 Aligned_cols=57 Identities=16% Similarity=0.032 Sum_probs=42.0
Q ss_pred hCCCCcccccceeecccccccccceeeccCCc-------CCCCcceecC--CCCeeeeeHHHHHHHHH
Q psy10373 51 LASSPWVAGDNITIADCSIVASLSTIECSTSD-------HMASQTRHPG--NLLVLMFSSRAIIAYLA 109 (215)
Q Consensus 51 ~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e-------~~~P~GkVPv--ddg~~L~ES~AI~~YL~ 109 (215)
.+.+++++...|+..++++.. ..++...++ ..||+|+||+ ++|..|+||.||++||+
T Consensus 8 ~s~~~~~v~~~L~~~~l~~~~--~~~~~~~~~~~~~~~~~~nP~~~vP~L~~~~~~l~eS~aI~~YL~ 73 (73)
T cd03047 8 SSINVQKVLWLLDELGLPYER--IDAGGQFGGLDTPEFLAMNPNGRVPVLEDGDFVLWESNAILRYLA 73 (73)
T ss_pred CCcchHHHHHHHHHcCCCCEE--EEeccccccccCHHHHhhCCCCCCCEEEECCEEEECHHHHHHHhC
Confidence 345667777878888887654 223444333 2359999999 88999999999999985
No 36
>cd03044 GST_N_EF1Bgamma GST_N family, Gamma subunit of Elongation Factor 1B (EFB1gamma) subfamily; EF1Bgamma is part of the eukaryotic translation elongation factor-1 (EF1) complex which plays a central role in the elongation cycle during protein biosynthesis. EF1 consists of two functionally distinct units, EF1A and EF1B. EF1A catalyzes the GTP-dependent binding of aminoacyl-tRNA to the ribosomal A site concomitant with the hydrolysis of GTP. The resulting inactive EF1A:GDP complex is recycled to the active GTP form by the guanine-nucleotide exchange factor EF1B, a complex composed of at least two subunits, alpha and gamma. Metazoan EFB1 contain a third subunit, beta. The EF1B gamma subunit contains a GST fold consisting of an N-terminal TRX-fold domain and a C-terminal alpha helical domain. The GST-like domain of EF1Bgamma is believed to mediate the dimerization of the EF1 complex, which in yeast is a dimer of the heterotrimer EF1A:EF1Balpha:EF1Bgamma. In addition to its role in prot
Probab=98.80 E-value=1.2e-09 Score=73.62 Aligned_cols=61 Identities=11% Similarity=0.030 Sum_probs=45.4
Q ss_pred HHhhCCCCcccccceeecccccccccceeeccCC----c--CCCCcceecC--C-CCeeeeeHHHHHHHHHH
Q psy10373 48 NTFLASSPWVAGDNITIADCSIVASLSTIECSTS----D--HMASQTRHPG--N-LLVLMFSSRAIIAYLAE 110 (215)
Q Consensus 48 ~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~----e--~~~P~GkVPv--d-dg~~L~ES~AI~~YL~~ 110 (215)
+.-.++++.++.+.+...++++.. ..+|+.++ + ..||+|+||+ + ||.+|+||.||++||++
T Consensus 5 ~~~~~~~~~~~~~~l~~~gi~~~~--~~v~~~~~~~~~~~~~~nP~~~vP~L~~~~g~~l~es~aI~~yL~~ 74 (75)
T cd03044 5 TYPGNPRSLKILAAAKYNGLDVEI--VDFQPGKENKTPEFLKKFPLGKVPAFEGADGFCLFESNAIAYYVAN 74 (75)
T ss_pred cCCCCccHHHHHHHHHHcCCceEE--EecccccccCCHHHHHhCCCCCCCEEEcCCCCEEeeHHHHHHHHhh
Confidence 333447888888989988888765 23355422 1 2359999999 4 58999999999999986
No 37
>KOG4420|consensus
Probab=98.79 E-value=2.6e-09 Score=86.71 Aligned_cols=86 Identities=13% Similarity=0.098 Sum_probs=68.2
Q ss_pred HHHhHHHHhhCCCCcccccceeecccccccccceeeccCCcCCC-------CcceecC--CCCeeeeeHHHHHHHHHHHh
Q psy10373 42 QALGFLNTFLASSPWVAGDNITIADCSIVASLSTIECSTSDHMA-------SQTRHPG--NLLVLMFSSRAIIAYLAEQY 112 (215)
Q Consensus 42 ~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~~-------P~GkVPv--ddg~~L~ES~AI~~YL~~~~ 112 (215)
+.+.+++---+=++=|+++.+.=-++++.. ..+++-.|||.. |.|+||| |+..+|.+|.-|++|+.++|
T Consensus 25 e~~vLyhhpysf~sQkVrlvi~EK~id~~~--y~V~l~~geh~epwFmrlNp~gevPVl~~g~~II~d~tqIIdYvErtf 102 (325)
T KOG4420|consen 25 ESLVLYHHPYSFSSQKVRLVIAEKGIDCEE--YDVSLPQGEHKEPWFMRLNPGGEVPVLIHGDNIISDYTQIIDYVERTF 102 (325)
T ss_pred hcceeeecCcccccceeeeehhhcccccce--eeccCccccccCchheecCCCCCCceEecCCeecccHHHHHHHHHHhh
Confidence 446677766666677888888777888877 445899999875 8999999 99999999999999999999
Q ss_pred CCCCCCCCC-CHHHHHHH
Q psy10373 113 GKDDSLYPK-DPKARGIV 129 (215)
Q Consensus 113 ~~~~~L~p~-d~~era~v 129 (215)
-+++.|.|. +..+..++
T Consensus 103 ~ger~l~pe~~S~~~d~~ 120 (325)
T KOG4420|consen 103 TGERVLMPEVGSLQHDRV 120 (325)
T ss_pred cccccccccccccccHHH
Confidence 877778883 44444443
No 38
>cd03076 GST_N_Pi GST_N family, Class Pi subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Class Pi GST is a homodimeric eukaryotic protein. The human GSTP1 is mainly found in erythrocytes, kidney, placenta and fetal liver. It is involved in stress responses and in cellular proliferation pathways as an inhibitor of JNK (c-Jun N-terminal kinase). Following oxidative stress, monomeric GSTP1 dissociates from JNK and dimerizes, losing its ability to bind JNK and causing an increase in JNK activity, thereby promoting apoptosis. GSTP1 is expressed in various tumors and is the predominant GST in a w
Probab=98.78 E-value=3.8e-10 Score=75.71 Aligned_cols=58 Identities=10% Similarity=-0.038 Sum_probs=45.0
Q ss_pred hCCCCcccccceeecccccccccceeec--cCC--cCCCCcceecC--CCCeeeeeHHHHHHHHHH
Q psy10373 51 LASSPWVAGDNITIADCSIVASLSTIEC--STS--DHMASQTRHPG--NLLVLMFSSRAIIAYLAE 110 (215)
Q Consensus 51 ~~g~~y~~~~~l~l~~~~~~~~~~~~~~--~~~--e~~~P~GkVPv--ddg~~L~ES~AI~~YL~~ 110 (215)
.+|++.++.+.|...+++++.. .++. ... ...||+|+||+ |||.+|+||.||++||++
T Consensus 9 ~~~~~~~v~~~L~~~~i~~e~~--~v~~~~~~~~~~~~~p~~~vP~l~~~~~~l~es~aI~~yL~~ 72 (73)
T cd03076 9 VRGRAEAIRLLLADQGISWEEE--RVTYEEWQESLKPKMLFGQLPCFKDGDLTLVQSNAILRHLGR 72 (73)
T ss_pred CcchHHHHHHHHHHcCCCCEEE--EecHHHhhhhhhccCCCCCCCEEEECCEEEEcHHHHHHHHhc
Confidence 3688889999999889887652 2232 122 24569999999 889999999999999986
No 39
>cd03042 GST_N_Zeta GST_N family, Class Zeta subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Class Zeta GSTs, also known as maleylacetoacetate (MAA) isomerases, catalyze the isomerization of MAA to fumarylacetoacetate, the penultimate step in tyrosine/phenylalanine catabolism, using GSH as a cofactor. They show little GSH-conjugating activity towards traditional GST substrates but display modest GSH peroxidase activity. They are also implicated in the detoxification of the carcinogen dichloroacetic acid by catalyzing its dechlorination to glyoxylic acid.
Probab=98.76 E-value=1.1e-09 Score=72.97 Aligned_cols=59 Identities=17% Similarity=0.175 Sum_probs=45.9
Q ss_pred HhhCCCCcccccceeecccccccccceeeccCCcCC-------CCcceecC--CCCeeeeeHHHHHHHHH
Q psy10373 49 TFLASSPWVAGDNITIADCSIVASLSTIECSTSDHM-------ASQTRHPG--NLLVLMFSSRAIIAYLA 109 (215)
Q Consensus 49 ~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~-------~P~GkVPv--ddg~~L~ES~AI~~YL~ 109 (215)
...+.+++++...|...++++.. ..+++.++++. ||.|+||+ ++|..|+||.||++||+
T Consensus 6 ~~~~~~~~~~~~~l~~~gi~~~~--~~~~~~~~~~~~~~~~~~~p~~~vP~l~~~~~~l~es~aI~~yL~ 73 (73)
T cd03042 6 YFRSSASYRVRIALNLKGLDYEY--VPVNLLKGEQLSPAYRALNPQGLVPTLVIDGLVLTQSLAIIEYLD 73 (73)
T ss_pred CCCCcchHHHHHHHHHcCCCCeE--EEecCccCCcCChHHHHhCCCCCCCEEEECCEEEEcHHHHHHHhC
Confidence 34457889998888888888755 33466554433 59999999 88999999999999984
No 40
>cd03080 GST_N_Metaxin_like GST_N family, Metaxin subfamily, Metaxin-like proteins; a heterogenous group of proteins, predominantly uncharacterized, with similarity to metaxins and GSTs. Metaxin 1 is a component of a preprotein import complex of the mitochondrial outer membrane. It extends to the cytosol and is anchored to the mitochondrial membrane through its C-terminal domain. In mice, metaxin is required for embryonic development. In humans, alterations in the metaxin gene may be associated with Gaucher disease. One characterized member of this subgroup is a novel GST from Rhodococcus with toluene o-monooxygenase and gamma-glutamylcysteine synthetase activities. Also members are the cadmium-inducible lysosomal protein CDR-1 and its homologs from C. elegans, and the failed axon connections (fax) protein from Drosophila. CDR-1 is an integral membrane protein that functions to protect against cadmium toxicity and may also have a role in osmoregulation to maintain salt balance in C. ele
Probab=98.76 E-value=3e-09 Score=71.65 Aligned_cols=54 Identities=17% Similarity=0.041 Sum_probs=41.7
Q ss_pred CcccccceeecccccccccceeeccCCcCCCCcceecC--CCCeeeeeHHHHHHHHHHHhC
Q psy10373 55 PWVAGDNITIADCSIVASLSTIECSTSDHMASQTRHPG--NLLVLMFSSRAIIAYLAEQYG 113 (215)
Q Consensus 55 ~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~ 113 (215)
|.++...|...+++++. ..++. ...||.|+||+ ++|.+|+||.+|++||+++|+
T Consensus 20 ~~~v~~~L~~~gi~~~~--~~~~~---~~~~p~g~vPvl~~~g~~l~eS~~I~~yL~~~~~ 75 (75)
T cd03080 20 CLKVETFLRMAGIPYEN--KFGGL---AKRSPKGKLPFIELNGEKIADSELIIDHLEEKYG 75 (75)
T ss_pred HHHHHHHHHHCCCCcEE--eecCc---ccCCCCCCCCEEEECCEEEcCHHHHHHHHHHHcC
Confidence 45566777777777654 22233 25789999999 889999999999999999875
No 41
>cd03058 GST_N_Tau GST_N family, Class Tau subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The plant-specific class Tau GST subfamily has undergone extensive gene duplication. The Arabidopsis and Oryza genomes contain 28 and 40 Tau GSTs, respectively. They are primarily responsible for herbicide detoxification together with class Phi GSTs, showing class specificity in substrate preference. Tau enzymes are highly efficient in detoxifying diphenylether and aryloxyphenoxypropionate herbicides. In addition, Tau GSTs play important roles in intracellular signalling, biosynthesis of anthocyanin,
Probab=98.74 E-value=8.4e-10 Score=74.04 Aligned_cols=64 Identities=9% Similarity=0.067 Sum_probs=45.8
Q ss_pred HHHhhCCCCcccccceeecccccccccceeeccC--Cc--CCCCc-ceecC--CCCeeeeeHHHHHHHHHHHh
Q psy10373 47 LNTFLASSPWVAGDNITIADCSIVASLSTIECST--SD--HMASQ-TRHPG--NLLVLMFSSRAIIAYLAEQY 112 (215)
Q Consensus 47 l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~--~e--~~~P~-GkVPv--ddg~~L~ES~AI~~YL~~~~ 112 (215)
++...+-++.++...+...++++.. + .++... .+ ..||. |+||+ ++|.+|+||.||++||++++
T Consensus 4 y~~~~sp~~~~v~~~l~~~gl~~~~-~-~~~~~~~~~~~~~~~p~~~~vP~l~~~~~~l~eS~aI~~yL~~~~ 74 (74)
T cd03058 4 LGAWASPFVLRVRIALALKGVPYEY-V-EEDLGNKSELLLASNPVHKKIPVLLHNGKPICESLIIVEYIDEAW 74 (74)
T ss_pred EECCCCchHHHHHHHHHHcCCCCEE-E-EeCcccCCHHHHHhCCCCCCCCEEEECCEEeehHHHHHHHHHhhC
Confidence 3333455677778888888888755 2 224321 22 44695 99999 88899999999999999864
No 42
>PF13417 GST_N_3: Glutathione S-transferase, N-terminal domain; PDB: 3ERG_B 3IBH_A 3ERF_A 3UBL_A 3UBK_A 3IR4_A 3M8N_B 2R4V_A 2PER_A 2R5G_A ....
Probab=98.73 E-value=1.9e-09 Score=72.59 Aligned_cols=60 Identities=15% Similarity=0.135 Sum_probs=45.7
Q ss_pred CCCcccccceeecccccccccceeeccCCc----CCCCcceecC--CCCeeeeeHHHHHHHHHHHhCC
Q psy10373 53 SSPWVAGDNITIADCSIVASLSTIECSTSD----HMASQTRHPG--NLLVLMFSSRAIIAYLAEQYGK 114 (215)
Q Consensus 53 g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e----~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~ 114 (215)
.+|.|+.+.+.+.++++.. ..++...++ .+||.|+||+ +||.+|+||.+|++||+++|++
T Consensus 8 p~~~kv~~~l~~~~i~~~~--~~v~~~~~~~~~~~~~p~~~vPvL~~~g~~l~dS~~I~~yL~~~~~~ 73 (75)
T PF13417_consen 8 PYSQKVRLALEEKGIPYEL--VPVDPEEKRPEFLKLNPKGKVPVLVDDGEVLTDSAAIIEYLEERYPG 73 (75)
T ss_dssp HHHHHHHHHHHHHTEEEEE--EEEBTTSTSHHHHHHSTTSBSSEEEETTEEEESHHHHHHHHHHHSTS
T ss_pred hHHHHHHHHHHHcCCeEEE--eccCcccchhHHHhhcccccceEEEECCEEEeCHHHHHHHHHHHcCC
Confidence 4466778888888888765 222433321 2359999999 8899999999999999999985
No 43
>cd03056 GST_N_4 GST_N family, unknown subfamily 4; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains.
Probab=98.70 E-value=1.9e-09 Score=71.70 Aligned_cols=57 Identities=14% Similarity=0.097 Sum_probs=44.2
Q ss_pred hCCCCcccccceeecccccccccceeeccCCcCC-------CCcceecC--CCCeeeeeHHHHHHHHH
Q psy10373 51 LASSPWVAGDNITIADCSIVASLSTIECSTSDHM-------ASQTRHPG--NLLVLMFSSRAIIAYLA 109 (215)
Q Consensus 51 ~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~-------~P~GkVPv--ddg~~L~ES~AI~~YL~ 109 (215)
.++++.++...|...++++.. ..+++..+++. ||.|+||+ ++|..|+||.||++||+
T Consensus 8 ~~~~~~~v~~~l~~~~~~~~~--~~i~~~~~~~~~~~~~~~~p~~~vP~l~~~~~~i~es~aI~~yl~ 73 (73)
T cd03056 8 LSGNCYKVRLLLALLGIPYEW--VEVDILKGETRTPEFLALNPNGEVPVLELDGRVLAESNAILVYLA 73 (73)
T ss_pred CCccHHHHHHHHHHcCCCcEE--EEecCCCcccCCHHHHHhCCCCCCCEEEECCEEEEcHHHHHHHhC
Confidence 346778888888888888765 23455554433 59999999 78999999999999984
No 44
>cd03041 GST_N_2GST_N GST_N family, 2 repeats of the N-terminal domain of soluble GSTs (2 GST_N) subfamily; composed of uncharacterized proteins. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains.
Probab=98.69 E-value=2.3e-09 Score=72.67 Aligned_cols=58 Identities=19% Similarity=0.291 Sum_probs=43.5
Q ss_pred hCCCCcccccceeecccccccccceeeccCCc-------CCCCcceecC--C--CCeeeeeHHHHHHHHHHHh
Q psy10373 51 LASSPWVAGDNITIADCSIVASLSTIECSTSD-------HMASQTRHPG--N--LLVLMFSSRAIIAYLAEQY 112 (215)
Q Consensus 51 ~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e-------~~~P~GkVPv--d--dg~~L~ES~AI~~YL~~~~ 112 (215)
.+.+|.++...|...++++... ++..++ ..||+|+||+ + +|.+|+||.||++||+++|
T Consensus 9 ~sp~~~kv~~~L~~~gi~y~~~----~v~~~~~~~~~~~~~~p~~~vP~l~~~~~~~~l~es~~I~~yL~~~~ 77 (77)
T cd03041 9 GSPFCRLVREVLTELELDVILY----PCPKGSPKRDKFLEKGGKVQVPYLVDPNTGVQMFESADIVKYLFKTY 77 (77)
T ss_pred CCchHHHHHHHHHHcCCcEEEE----ECCCChHHHHHHHHhCCCCcccEEEeCCCCeEEEcHHHHHHHHHHhC
Confidence 4467778888888888876541 333333 2359999999 4 4789999999999999875
No 45
>cd03059 GST_N_SspA GST_N family, Stringent starvation protein A (SspA) subfamily; SspA is a RNA polymerase (RNAP)-associated protein required for the lytic development of phage P1 and for stationary phase-induced acid tolerance of E. coli. It is implicated in survival during nutrient starvation. SspA adopts the GST fold with an N-terminal TRX-fold domain and a C-terminal alpha helical domain, but it does not bind glutathione (GSH) and lacks GST activity. SspA is highly conserved among gram-negative bacteria. Related proteins found in Neisseria (called RegF), Francisella and Vibrio regulate the expression of virulence factors necessary for pathogenesis.
Probab=98.68 E-value=1.4e-09 Score=72.51 Aligned_cols=58 Identities=16% Similarity=0.257 Sum_probs=41.3
Q ss_pred CCCcccccceeecccccccccceeeccC--Cc--CCCCcceecC--CCCeeeeeHHHHHHHHHHHh
Q psy10373 53 SSPWVAGDNITIADCSIVASLSTIECST--SD--HMASQTRHPG--NLLVLMFSSRAIIAYLAEQY 112 (215)
Q Consensus 53 g~~y~~~~~l~l~~~~~~~~~~~~~~~~--~e--~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~ 112 (215)
.++.++...+...|+++.. ..++... .+ ..||+|+||+ ++|..|+||.||++||+++|
T Consensus 10 ~~~~~v~~~l~~~gi~~~~--~~v~~~~~~~~~~~~~p~~~vP~l~~~~~~l~es~aI~~yL~~~~ 73 (73)
T cd03059 10 VYSHRVRIVLAEKGVSVEI--IDVDPDNPPEDLAELNPYGTVPTLVDRDLVLYESRIIMEYLDERF 73 (73)
T ss_pred hhHHHHHHHHHHcCCccEE--EEcCCCCCCHHHHhhCCCCCCCEEEECCEEEEcHHHHHHHHHhhC
Confidence 3456666777777777654 1224321 22 3469999999 78899999999999999875
No 46
>cd03043 GST_N_1 GST_N family, unknown subfamily 1; composed of uncharacterized proteins, predominantly from bacteria, with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains.
Probab=98.66 E-value=3.7e-09 Score=70.90 Aligned_cols=59 Identities=19% Similarity=0.124 Sum_probs=42.9
Q ss_pred HhhCCCCcccccceeecccccccccceeeccCCc------CCCCcceecC--CCCeeeeeHHHHHHHHH
Q psy10373 49 TFLASSPWVAGDNITIADCSIVASLSTIECSTSD------HMASQTRHPG--NLLVLMFSSRAIIAYLA 109 (215)
Q Consensus 49 ~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e------~~~P~GkVPv--ddg~~L~ES~AI~~YL~ 109 (215)
++.+..+.++.+.|...++++.. ..++...++ ..||+|+||+ ++|.+|+||.||++||+
T Consensus 7 ~~~s~~s~~v~~~L~~~gl~~e~--~~v~~~~~~~~~~~~~~nP~g~vP~L~~~g~~l~eS~aI~~YL~ 73 (73)
T cd03043 7 KNYSSWSLRPWLLLKAAGIPFEE--ILVPLYTPDTRARILEFSPTGKVPVLVDGGIVVWDSLAICEYLA 73 (73)
T ss_pred CCCCHHHHHHHHHHHHcCCCCEE--EEeCCCCccccHHHHhhCCCCcCCEEEECCEEEEcHHHHHHHhC
Confidence 34445566777778888887655 233544321 3569999999 88999999999999984
No 47
>cd03039 GST_N_Sigma_like GST_N family, Class Sigma_like; composed of GSTs belonging to class Sigma and similar proteins, including GSTs from class Mu, Pi and Alpha. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Vertebrate class Sigma GSTs are characterized as GSH-dependent hematopoietic prostaglandin (PG) D synthases and are responsible for the production of PGD2 by catalyzing the isomerization of PGH2. The functions of PGD2 include the maintenance of body temperature, inhibition of platelet aggregation, bronchoconstriction, vasodilation and mediation of allergy and inflammation. Other class Sigma
Probab=98.65 E-value=1.3e-09 Score=72.66 Aligned_cols=58 Identities=16% Similarity=-0.016 Sum_probs=44.7
Q ss_pred hCCCCcccccceeecccccccccceeeccCC-----cCCCCcceecC--CCCeeeeeHHHHHHHHHH
Q psy10373 51 LASSPWVAGDNITIADCSIVASLSTIECSTS-----DHMASQTRHPG--NLLVLMFSSRAIIAYLAE 110 (215)
Q Consensus 51 ~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~-----e~~~P~GkVPv--ddg~~L~ES~AI~~YL~~ 110 (215)
.++++.++...|...|++++. +. ++...+ ...||+|+||+ ++|..|+||.||++||++
T Consensus 8 ~~~~~~~v~~~l~~~gi~~e~-~~-~~~~~~~~~~~~~~~p~~~vP~L~~~~~~l~es~aI~~yL~~ 72 (72)
T cd03039 8 IRGRGEPIRLLLADAGVEYED-VR-ITYEEWPELDLKPTLPFGQLPVLEIDGKKLTQSNAILRYLAR 72 (72)
T ss_pred CcchHHHHHHHHHHCCCCcEE-EE-eCHHHhhhhhhccCCcCCCCCEEEECCEEEEecHHHHHHhhC
Confidence 347778899999999988765 22 244322 23569999999 889999999999999973
No 48
>cd03189 GST_C_GTT1_like GST_C family, Saccharomyces cerevisiae GTT1-like subfamily; composed of predominantly uncharacterized proteins with similarity to the S. cerevisiae GST protein, GTT1, and the Schizosaccharomyces pombe GST-III. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. GTT1, a homodimer, exhibits GST activity with standard substrates and associates with the endopl
Probab=98.64 E-value=4.9e-09 Score=76.45 Aligned_cols=77 Identities=13% Similarity=0.070 Sum_probs=52.8
Q ss_pred CCCHHHHHHHHHHHhhhccccchhcccceeeccccCCC--------CCCc--hHHHHHHHHHcC-CCcEEEeccCCCCCC
Q psy10373 120 PKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVP--------GSAP--CRAVQLAAAQIG-VPLNLKHTDLMKGEH 188 (215)
Q Consensus 120 p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~--------~~~~--~~~~~~~~~~l~-le~~L~~~~fl~Gd~ 188 (215)
|.|+.+|+++++|++|.++++++.+...++.... ... .... ......+...+. +|.+|.+++|++||+
T Consensus 2 ~~~~~~ra~~~~wl~~~~~~~~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~l~Gd~ 80 (119)
T cd03189 2 PPDTAEYADYLYWLHFAEGSLMPPLLLKLVLSRI-GSAPPPIANKIADKVLAGFINPELKKHLDFLEDRLAKKGYFVGDK 80 (119)
T ss_pred CCCHHHHHHHHHHHHHHhHhhhHHHHHHHHHhhc-CCCCcchHHHHHHHHHHHHHhHHHHHHHHHHHHHHccCCCCCCCC
Confidence 4689999999999999999998876533222111 111 0011 112234555566 689998899999999
Q ss_pred CCHhHHhhC
Q psy10373 189 LTPEFLKLN 197 (215)
Q Consensus 189 ~T~ADi~l~ 197 (215)
+|+||+.+.
T Consensus 81 ~t~ADi~l~ 89 (119)
T cd03189 81 LTAADIMMS 89 (119)
T ss_pred CCHHHHHHH
Confidence 999999984
No 49
>cd03051 GST_N_GTT2_like GST_N family, Saccharomyces cerevisiae GTT2-like subfamily; composed of predominantly uncharacterized proteins with similarity to the S. cerevisiae GST protein, GTT2. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GTT2, a homodimer, exhibits GST activity with standard substrates. Strains with deleted GTT2 genes are viable but exhibit increased sensitivity to heat shock.
Probab=98.60 E-value=6.2e-09 Score=69.28 Aligned_cols=57 Identities=16% Similarity=0.134 Sum_probs=42.6
Q ss_pred hCCCCcccccceeecccccccccceeeccCCcC-------CCCcceecC---CCCeeeeeHHHHHHHHH
Q psy10373 51 LASSPWVAGDNITIADCSIVASLSTIECSTSDH-------MASQTRHPG---NLLVLMFSSRAIIAYLA 109 (215)
Q Consensus 51 ~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~-------~~P~GkVPv---ddg~~L~ES~AI~~YL~ 109 (215)
.+.+|.++...|...++++.. ..+++..+++ .||+|+||+ +||..|+||.||++||+
T Consensus 8 ~s~~~~~~~~~L~~~~l~~~~--~~v~~~~~~~~~~~~~~~~p~~~vP~l~~~~~~~l~es~aI~~yLe 74 (74)
T cd03051 8 TAPNPRRVRIFLAEKGIDVPL--VTVDLAAGEQRSPEFLAKNPAGTVPVLELDDGTVITESVAICRYLE 74 (74)
T ss_pred CCcchHHHHHHHHHcCCCceE--EEeecccCccCCHHHHhhCCCCCCCEEEeCCCCEEecHHHHHHHhC
Confidence 356778888888888887655 2335544432 259999999 57889999999999984
No 50
>cd03196 GST_C_5 GST_C family, unknown subfamily 5; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=98.55 E-value=2.9e-08 Score=72.46 Aligned_cols=75 Identities=13% Similarity=0.092 Sum_probs=56.8
Q ss_pred CCHHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 121 KDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 121 ~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
.||.+|++|+||++|+.+++.+.+...++..... .+ ........+.+.+. +|.+|++++|++||++|+||+.+.|
T Consensus 2 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~-~~--~~~~~~~~i~~~l~~le~~L~~~~yl~Gd~~tlADi~l~~ 77 (115)
T cd03196 2 QDPAALKEMLALIAENDNEFKHHLDRYKYADRYP-EE--SEEEYRQQAEAFLKDLEARLQQHSYLLGDKPSLADWAIFP 77 (115)
T ss_pred CchHHHHHHHHHHHHcchhhHHHHHhccchhhcC-cc--cHHHHHHHHHHHHHHHHHHHccCCccCCCCccHHHHHHHH
Confidence 3789999999999999999999887766653221 11 12233445566666 6899988899999999999999854
No 51
>cd03037 GST_N_GRX2 GST_N family, Glutaredoxin 2 (GRX2) subfamily; composed of bacterial proteins similar to E. coli GRX2, an atypical GRX with a molecular mass of about 24kD, compared with other GRXs which are 9-12kD in size. GRX2 adopts a GST fold containing an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain. It contains a redox active CXXC motif located in the N-terminal domain but is not able to reduce ribonucleotide reductase like other GRXs. However, it catalyzes GSH-dependent protein disulfide reduction of other substrates efficiently. GRX2 is thought to function primarily in catalyzing the reversible glutathionylation of proteins in cellular redox regulation including stress responses.
Probab=98.54 E-value=7.7e-09 Score=68.72 Aligned_cols=64 Identities=13% Similarity=0.020 Sum_probs=46.1
Q ss_pred hHHHHhhCCCCcccccceeecccccccccceeeccCC---cCCCCcceecC--C-CCeeeeeHHHHHHHHHH
Q psy10373 45 GFLNTFLASSPWVAGDNITIADCSIVASLSTIECSTS---DHMASQTRHPG--N-LLVLMFSSRAIIAYLAE 110 (215)
Q Consensus 45 ~~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~---e~~~P~GkVPv--d-dg~~L~ES~AI~~YL~~ 110 (215)
++++...+.+|.++++.|...|++++. +. ++.... ...+|.|+||+ + ||..|+||.||++||++
T Consensus 2 ~Ly~~~~~p~~~rvr~~L~~~gl~~~~-~~-~~~~~~~~~~~~~~~~~vP~L~~~~~~~l~es~aI~~yL~~ 71 (71)
T cd03037 2 KLYIYEHCPFCVKARMIAGLKNIPVEQ-II-LQNDDEATPIRMIGAKQVPILEKDDGSFMAESLDIVAFIDE 71 (71)
T ss_pred ceEecCCCcHhHHHHHHHHHcCCCeEE-EE-CCCCchHHHHHhcCCCccCEEEeCCCeEeehHHHHHHHHhC
Confidence 344444567788899999999998765 22 232211 12459999999 4 48999999999999974
No 52
>cd03049 GST_N_3 GST_N family, unknown subfamily 3; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains.
Probab=98.52 E-value=9.7e-09 Score=68.58 Aligned_cols=62 Identities=13% Similarity=0.059 Sum_probs=42.6
Q ss_pred HHHHhhCCCCcccccceee--cccccccccceeeccC--Cc--CCCCcceecC---CCCeeeeeHHHHHHHHH
Q psy10373 46 FLNTFLASSPWVAGDNITI--ADCSIVASLSTIECST--SD--HMASQTRHPG---NLLVLMFSSRAIIAYLA 109 (215)
Q Consensus 46 ~l~~~~~g~~y~~~~~l~l--~~~~~~~~~~~~~~~~--~e--~~~P~GkVPv---ddg~~L~ES~AI~~YL~ 109 (215)
++....+.++.++.+.+.. .++++.. ..+|... .+ ..||+|+||+ +||..|+||.||++||+
T Consensus 3 Ly~~~~s~~~~~~~~~l~~~~~~i~~~~--~~~~~~~~~~~~~~~~p~~~vP~l~~~~g~~l~es~aI~~yLe 73 (73)
T cd03049 3 LLYSPTSPYVRKVRVAAHETGLGDDVEL--VLVNPWSDDESLLAVNPLGKIPALVLDDGEALFDSRVICEYLD 73 (73)
T ss_pred EecCCCCcHHHHHHHHHHHhCCCCCcEE--EEcCcccCChHHHHhCCCCCCCEEEECCCCEEECHHHHHhhhC
Confidence 3444445667777888888 5666544 2234321 22 3469999999 57899999999999984
No 53
>PF13409 GST_N_2: Glutathione S-transferase, N-terminal domain; PDB: 3C8E_B 3M1G_A 3R3E_A 3O3T_A 1RK4_A 1K0O_B 1K0N_A 3QR6_A 3SWL_A 3TGZ_B ....
Probab=98.49 E-value=3.9e-08 Score=65.35 Aligned_cols=53 Identities=15% Similarity=0.128 Sum_probs=35.3
Q ss_pred ccccceeeccccccccccee-eccCCcC-------CCCcceecC---CCCeeeeeHHHHHHHHHHH
Q psy10373 57 VAGDNITIADCSIVASLSTI-ECSTSDH-------MASQTRHPG---NLLVLMFSSRAIIAYLAEQ 111 (215)
Q Consensus 57 ~~~~~l~l~~~~~~~~~~~~-~~~~~e~-------~~P~GkVPv---ddg~~L~ES~AI~~YL~~~ 111 (215)
++.+.+.+.+++..- ..+ +..++++ .||.|+||+ ++|.+++||.+|++||+++
T Consensus 7 Rv~i~l~~~gl~~~~--~~v~~~~~~~~~~~~~~~~~p~~~VP~L~~~~g~vi~eS~~I~~yL~~~ 70 (70)
T PF13409_consen 7 RVRIALEEKGLPYEI--KVVPLIPKGEQKPPEFLALNPRGKVPVLVDPDGTVINESLAILEYLEEQ 70 (70)
T ss_dssp HHHHHHHHHTGTCEE--EEEETTTTBCTTCHBHHHHSTT-SSSEEEETTTEEEESHHHHHHHHHHT
T ss_pred HHHHHHHHhCCCCEE--EEEeeecCccccChhhhccCcCeEEEEEEECCCCEeeCHHHHHHHHhcC
Confidence 344555566666544 232 2233333 359999999 4899999999999999974
No 54
>KOG1422|consensus
Probab=98.47 E-value=7.4e-08 Score=76.05 Aligned_cols=132 Identities=14% Similarity=0.159 Sum_probs=80.7
Q ss_pred CCCccc-ccceeecccccccccceeeccCC-c---CCCCcceecC--CCCeeeeeHHHHHHHHHHHhCCCCCCCCC-CHH
Q psy10373 53 SSPWVA-GDNITIADCSIVASLSTIECSTS-D---HMASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKDDSLYPK-DPK 124 (215)
Q Consensus 53 g~~y~~-~~~l~l~~~~~~~~~~~~~~~~~-e---~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~~~L~p~-d~~ 124 (215)
|+|+.- +++++|..-.....|+++|+... + ...|.|++|+ .||...+||..|-+.|.++++.. -+|. ++.
T Consensus 19 Gdcpf~qr~~m~L~~k~~~f~vttVd~~~kp~~f~~~sp~~~~P~l~~d~~~~tDs~~Ie~~Lee~l~~p--~~~~~~~~ 96 (221)
T KOG1422|consen 19 GDCPFCQRLFMTLELKGVPFKVTTVDLSRKPEWFLDISPGGKPPVLKFDEKWVTDSDKIEEFLEEKLPPP--KLPTLAPP 96 (221)
T ss_pred CCChhHHHHHHHHHHcCCCceEEEeecCCCcHHHHhhCCCCCCCeEEeCCceeccHHHHHHHHHHhcCCC--CCcccCCH
Confidence 555554 45555554444555777888543 3 2249999999 88899999999999999999854 3343 345
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHc-CCCcEEEe---ccCCCCCCCCHhHHhhCC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQI-GVPLNLKH---TDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l-~le~~L~~---~~fl~Gd~~T~ADi~l~P 198 (215)
|.+-+-. .++..+..+. .......+....+.+...+ .+|.+|+. ++|+.||++|.+|+++.|
T Consensus 97 E~asag~-------diF~kF~~fi-----~ksk~~~n~~~e~~Ll~~L~~Ld~yL~sp~~~~Fl~Gd~lt~aDcsLlP 162 (221)
T KOG1422|consen 97 ESASAGS-------DIFAKFSAFI-----KKSKDAANDGLEKALLKELEKLDDYLKSPSRRKFLDGDKLTLADCSLLP 162 (221)
T ss_pred HHHhhHH-------HHHHHHHHHH-----hCchhhccchHHHHHHHHHHHHHHHhcCccCCccccCCeeeeehhhhch
Confidence 5554322 1222222111 1111112222222333333 47888874 799999999999999955
No 55
>cd03040 GST_N_mPGES2 GST_N family; microsomal Prostaglandin E synthase Type 2 (mPGES2) subfamily; mPGES2 is a membrane-anchored dimeric protein containing a CXXC motif which catalyzes the isomerization of PGH2 to PGE2. Unlike cytosolic PGE synthase (cPGES) and microsomal PGES Type 1 (mPGES1), mPGES2 does not require glutathione (GSH) for its activity, although its catalytic rate is increased two- to four-fold in the presence of DTT, GSH or other thiol compounds. PGE2 is widely distributed in various tissues and is implicated in the sleep/wake cycle, relaxation/contraction of smooth muscle, excretion of sodium ions, maintenance of body temperature and mediation of inflammation. mPGES2 contains an N-terminal hydrophobic domain which is membrane associated, and a C-terminal soluble domain with a GST-like structure.
Probab=98.41 E-value=9.6e-09 Score=69.34 Aligned_cols=61 Identities=10% Similarity=-0.017 Sum_probs=43.5
Q ss_pred hhCCCCcccccceeecccccccccceeeccCC-c-CCCCcceecC---C---CCeeeeeHHHHHHHHHHHh
Q psy10373 50 FLASSPWVAGDNITIADCSIVASLSTIECSTS-D-HMASQTRHPG---N---LLVLMFSSRAIIAYLAEQY 112 (215)
Q Consensus 50 ~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~-e-~~~P~GkVPv---d---dg~~L~ES~AI~~YL~~~~ 112 (215)
..+.+|.|+...|...++++.. +. ++.... + ..+|+|+||+ + +|.+|+||.+|++||+++.
T Consensus 8 ~~~p~c~kv~~~L~~~gi~y~~-~~-~~~~~~~~~~~~~~~~vP~l~~~~~~~~~~l~eS~~I~~yL~~~~ 76 (77)
T cd03040 8 KTCPFCCKVRAFLDYHGIPYEV-VE-VNPVSRKEIKWSSYKKVPILRVESGGDGQQLVDSSVIISTLKTYL 76 (77)
T ss_pred CCCHHHHHHHHHHHHCCCceEE-EE-CCchhHHHHHHhCCCccCEEEECCCCCccEEEcHHHHHHHHHHHc
Confidence 3346677888888888887655 22 233211 1 3469999999 3 3899999999999999874
No 56
>cd03179 GST_C_1 GST_C family, unknown subfamily 1; composed of uncharacterized bacterial proteins, with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=98.38 E-value=2.1e-07 Score=65.98 Aligned_cols=74 Identities=16% Similarity=0.148 Sum_probs=50.4
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCCCCCc---hHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAP---CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~---~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
+||++++|+.|.++.+.+.+..+.....+........ ......+...++ +|..|++++|++|+++|+|||.+.|
T Consensus 2 ~ra~~~~wl~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~l~g~~~slaDi~~~~ 79 (105)
T cd03179 2 ERAQVLRWLFFEQYSHEPYIATLRFLRVYLGLGEADAEVLAFLRERGHAALAVLEAHLAGRDFLVGDALTIADIALAA 79 (105)
T ss_pred cHHHHHHHHHHhhcccCccceeeeeeEeeccCCCCCHHHHHHHHHHHHHHHHHHHHHHccCccccCCCCCHHHHHHHH
Confidence 6899999999999999887765444322211111111 123334555555 6888888899999999999999854
No 57
>cd03055 GST_N_Omega GST_N family, Class Omega subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Class Omega GSTs show little or no GSH-conjugating activity towards standard GST substrates. Instead, they catalyze the GSH dependent reduction of protein disulfides, dehydroascorbate and monomethylarsonate, activities which are more characteristic of glutaredoxins. They contain a conserved cysteine equivalent to the first cysteine in the CXXC motif of glutaredoxins, which is a redox active residue capable of reducing GSH mixed disulfides in a monothiol mechanism. Polymorphisms of the class Omega
Probab=98.37 E-value=3e-08 Score=69.04 Aligned_cols=64 Identities=14% Similarity=0.121 Sum_probs=47.4
Q ss_pred HhHHHHhhCCCCcccccceeecccccccccceeeccCC-c---CCCCcceecC--CC-CeeeeeHHHHHHHHH
Q psy10373 44 LGFLNTFLASSPWVAGDNITIADCSIVASLSTIECSTS-D---HMASQTRHPG--NL-LVLMFSSRAIIAYLA 109 (215)
Q Consensus 44 ~~~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~~~~~-e---~~~P~GkVPv--dd-g~~L~ES~AI~~YL~ 109 (215)
++++..-.+.+|+++.+.|...++++.. + .+++... + ..||+|+||+ ++ |..|+||.||++||+
T Consensus 19 ~~Ly~~~~sp~~~kv~~~L~~~gl~~~~-~-~v~~~~~~~~~~~~np~~~vPvL~~~~g~~l~eS~aI~~yLe 89 (89)
T cd03055 19 IRLYSMRFCPYAQRARLVLAAKNIPHEV-I-NINLKDKPDWFLEKNPQGKVPALEIDEGKVVYESLIICEYLD 89 (89)
T ss_pred EEEEeCCCCchHHHHHHHHHHcCCCCeE-E-EeCCCCCcHHHHhhCCCCCcCEEEECCCCEEECHHHHHHhhC
Confidence 5665555567888888888888888765 2 2344332 2 3469999999 44 899999999999985
No 58
>cd03060 GST_N_Omega_like GST_N family, Omega-like subfamily; composed of uncharacterized proteins with similarity to class Omega GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Class Omega GSTs show little or no GSH-conjugating activity towards standard GST substrates. Instead, they catalyze the GSH dependent reduction of protein disulfides, dehydroascorbate and monomethylarsonate, activities which are more characteristic of glutaredoxins. Like Omega enzymes, proteins in this subfamily contain a conserved cysteine equivalent to the first cysteine in the CXXC motif of glutaredoxins, which is a r
Probab=98.35 E-value=1.7e-07 Score=62.24 Aligned_cols=54 Identities=11% Similarity=0.068 Sum_probs=38.6
Q ss_pred CCCcccccceeecccccccccceeeccCC--c--CCCCcceecC--C-CCeeeeeHHHHHHHH
Q psy10373 53 SSPWVAGDNITIADCSIVASLSTIECSTS--D--HMASQTRHPG--N-LLVLMFSSRAIIAYL 108 (215)
Q Consensus 53 g~~y~~~~~l~l~~~~~~~~~~~~~~~~~--e--~~~P~GkVPv--d-dg~~L~ES~AI~~YL 108 (215)
..|.++...|...|++++. ..+++..+ + ..||.|+||+ + ||..|+||.||++|+
T Consensus 10 p~~~rv~~~L~~~gl~~e~--~~v~~~~~~~~~~~~np~~~vP~L~~~~g~~l~eS~aI~~y~ 70 (71)
T cd03060 10 PYAMRARMALLLAGITVEL--REVELKNKPAEMLAASPKGTVPVLVLGNGTVIEESLDIMRWA 70 (71)
T ss_pred cHHHHHHHHHHHcCCCcEE--EEeCCCCCCHHHHHHCCCCCCCEEEECCCcEEecHHHHHHhh
Confidence 4566666777777777654 23354332 1 3469999999 4 599999999999996
No 59
>cd03054 GST_N_Metaxin GST_N family, Metaxin subfamily; composed of metaxins and related proteins. Metaxin 1 is a component of a preprotein import complex of the mitochondrial outer membrane. It extends to the cytosol and is anchored to the mitochondrial membrane through its C-terminal domain. In mice, metaxin is required for embryonic development. In humans, alterations in the metaxin gene may be associated with Gaucher disease. Metaxin 2 binds to metaxin 1 and may also play a role in protein translocation into the mitochondria. Genome sequencing shows that a third metaxin gene also exists in zebrafish, Xenopus, chicken and mammals. Sequence analysis suggests that all three metaxins share a common ancestry and that they possess similarity to GSTs. Also included in the subfamily are uncharacterized proteins with similarity to metaxins, including a novel GST from Rhodococcus with toluene o-monooxygenase and glutamylcysteine synthetase activities.
Probab=98.33 E-value=1.7e-07 Score=62.37 Aligned_cols=53 Identities=13% Similarity=0.018 Sum_probs=39.9
Q ss_pred CCcccccceeecccccccccceeeccCCcCCCCcceecC--CCCeeeeeHHHHHHHHHHH
Q psy10373 54 SPWVAGDNITIADCSIVASLSTIECSTSDHMASQTRHPG--NLLVLMFSSRAIIAYLAEQ 111 (215)
Q Consensus 54 ~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~ 111 (215)
.|.++...|...+++++. ..++.. ..||.|+||+ ++|..++||.+|++||+++
T Consensus 18 ~~~~v~~~L~~~~i~~~~--~~~~~~---~~~p~g~vP~l~~~g~~l~es~~I~~yL~~~ 72 (72)
T cd03054 18 ECLKVETYLRMAGIPYEV--VFSSNP---WRSPTGKLPFLELNGEKIADSEKIIEYLKKK 72 (72)
T ss_pred HHHHHHHHHHhCCCceEE--EecCCc---ccCCCcccCEEEECCEEEcCHHHHHHHHhhC
Confidence 355566777777877655 222332 2789999999 7899999999999999874
No 60
>cd03188 GST_C_Beta GST_C family, Class Beta subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Unlike mammalian GSTs which detoxify a broad range of compounds, the bacterial class Beta GSTs exhibit limited GSH conjugating activity with a narrow range of substrates. In addition to GSH conjugation, they also bind antibiotics and reduce the antimicrobial activity of beta-lactam drugs. The structure of the Proteus mirabilis enzyme reveals that the cysteine in the active site for
Probab=98.31 E-value=1.7e-07 Score=67.46 Aligned_cols=74 Identities=16% Similarity=0.141 Sum_probs=49.8
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCCCCCc---hHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAP---CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~---~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
+|+++++|++|.++.+.+.+...+........+.... ......+.+.++ +|.+|++++|++|+++|+|||++.|
T Consensus 2 ~ra~~~~w~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~l~~~~~l~G~~~t~aDi~~~~ 79 (114)
T cd03188 2 ERARLLEWLNFLSSELHKAFGPLFYPARWATDEAAQEEVKAAARERLAARLAYLDAQLAGGPYLLGDRFSVADAYLFV 79 (114)
T ss_pred cHHHHHHHHHHHhhhhchhhhhcccccccccChhhHHHHHHHHHHHHHHHHHHHHHHhcCCCeeeCCCcchHHHHHHH
Confidence 5899999999999999988765544322111100001 112234455555 6888888899999999999999844
No 61
>cd03186 GST_C_SspA GST_N family, Stringent starvation protein A (SspA) subfamily; SspA is a RNA polymerase (RNAP)-associated protein required for the lytic development of phage P1 and for stationary phase-induced acid tolerance of E. coli. It is implicated in survival during nutrient starvation. SspA adopts the GST fold with an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, but it does not bind glutathione (GSH) and lacks GST activity. SspA is highly conserved among gram-negative bacteria. Related proteins found in Neisseria (called RegF), Francisella and Vibrio regulate the expression of virulence factors necessary for pathogenesis.
Probab=98.27 E-value=1.3e-07 Score=67.64 Aligned_cols=71 Identities=13% Similarity=-0.002 Sum_probs=50.2
Q ss_pred HHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCCC
Q psy10373 123 PKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNPQ 199 (215)
Q Consensus 123 ~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P~ 199 (215)
|.+|+++++|+.|.++.+.+.+.....+ .+ .........+.+.+. +|.+|++++|++|+++|+||+.+.|.
T Consensus 1 p~~ra~~r~w~~~~~~~~~~~~~~~~~~-----~~-~~~~~~~~~~~~~l~~le~~L~~~~~l~G~~~t~aDi~~~~~ 72 (107)
T cd03186 1 PVARARSRLLMHRIEQDWYPLVDTIEKG-----RK-KEAEKARKELRESLLALAPVFAHKPYFMSEEFSLVDCALAPL 72 (107)
T ss_pred ChHHHHHHHHHHHHHHHHHHHHHHHHhC-----cH-HHHHHHHHHHHHHHHHHHHHHcCCCcccCCCCcHHHHHHHHH
Confidence 3589999999999998888776443221 11 111223334455555 68888889999999999999999664
No 62
>cd03180 GST_C_2 GST_C family, unknown subfamily 2; composed of uncharacterized bacterial proteins, with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=98.27 E-value=1.9e-07 Score=66.73 Aligned_cols=74 Identities=16% Similarity=0.162 Sum_probs=51.4
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCCCCCch----HHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCCC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPC----RAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNPQ 199 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~----~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P~ 199 (215)
+|+++++|++|.++.+.+.+...+.... ...+..... .....+.+.+. +|.+|.+++|++|+++|+||+.+.|.
T Consensus 2 ~ra~~~~~l~~~~~~~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~~~~~l~~lE~~L~~~~~l~g~~~t~aDi~~~~~ 80 (110)
T cd03180 2 ARARADRWMDWQTSTLNPAFRYAFWGLV-RTPPEQRDPAAIAASLAAWAKLMAILDAQLAGRPYLAGDRFTLADIPLGCS 80 (110)
T ss_pred chhHHHHHHHHHHhhcChHHHHHHHHHH-cCCcccCCHHHHHHHHHHHHHHHHHHHHHhCCCCcccCCCCCHHHHHHHHH
Confidence 5899999999999999988765433211 111111211 12345566666 68889888999999999999998543
No 63
>cd03177 GST_C_Delta_Epsilon GST_C family, Class Delta and Epsilon subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The class Delta and Epsilon subfamily is made up primarily of insect GSTs, which play major roles in insecticide resistance by facilitating reductive dehydrochlorination of insecticides or conjugating them with GSH to produce water-soluble metabolites th
Probab=98.26 E-value=2e-07 Score=67.94 Aligned_cols=72 Identities=38% Similarity=0.527 Sum_probs=51.8
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
+|+++++|++|..+.+.+.+...+.+... ..+ .........+.+.++ +|.+|++++|++|+++|+||+.+.|
T Consensus 2 ~~a~~~~wl~~~~~~~~~~~~~~~~~~~~-~~~-~~~~~~~~~~~~~l~~le~~L~~~~~l~G~~~s~aDi~l~~ 74 (118)
T cd03177 2 KRAIVNQRLHFDSGTLYQRLRDYYYPILF-GGA-EPPEEKLDKLEEALDFLETFLEGSDYVAGDQLTIADLSLVA 74 (118)
T ss_pred hHHHHHHHHHhhhchHHHHHHHHHHHHHH-cCC-CCCHHHHHHHHHHHHHHHHHHccCCeeCCCCcCHHHHHHHH
Confidence 68999999999999998877555444322 222 222334445566666 6888888899999999999999854
No 64
>cd03182 GST_C_GTT2_like GST_C family, Saccharomyces cerevisiae GTT2-like subfamily; composed of predominantly uncharacterized proteins with similarity to the S. cerevisiae GST protein, GTT2. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. GTT2, a homodimer, exhibits GST activity with standard substrates. Strains with deleted GTT2 genes are viable but exhibit increased sensiti
Probab=98.23 E-value=5.1e-07 Score=65.42 Aligned_cols=77 Identities=12% Similarity=-0.035 Sum_probs=51.5
Q ss_pred CHHHHHHHHHHHhhhccccchhcccceeecccc-C----CCCCCc--hHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhH
Q psy10373 122 DPKARGIVNQRLYFDIGTLYQRFADYFMTIDFY-Y----VPGSAP--CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEF 193 (215)
Q Consensus 122 d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~-~----~~~~~~--~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~AD 193 (215)
|+.+|+++++|++|.++++.+.+...+...... + ...... ......+.+.++ +|.+|++++|++||++|+||
T Consensus 1 d~~~ra~~~~w~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~l~~le~~L~~~~~l~gd~~t~aD 80 (117)
T cd03182 1 TPLERAQIEMWQRRAELQGLYPIGQAFRHATPGLKPPDREEQVPEWGERSKARAADFLAYLDTRLAGSPYVAGDRFTIAD 80 (117)
T ss_pred CHHHHHHHHHHHHHHHHHHHHHHHHHHhcCCccccCccccccCHHHHHHHHHHHHHHHHHHHHHhcCCCcccCCCCCHHH
Confidence 578999999999998888887665443321111 1 011111 122344555666 68888888999999999999
Q ss_pred HhhCC
Q psy10373 194 LKLNP 198 (215)
Q Consensus 194 i~l~P 198 (215)
|++.+
T Consensus 81 i~l~~ 85 (117)
T cd03182 81 ITAFV 85 (117)
T ss_pred HHHHH
Confidence 99843
No 65
>cd03200 GST_C_JTV1 GST_C family, JTV-1 subfamily; composed of uncharacterized proteins with similarity to the translation product of the human JTV-1 gene. Human JTV-1, a gene of unknown function, initiates within the human PMS2 gene promoter, but is transcribed from the opposite strand. PMS2 encodes a protein involved in DNA mismatch repair and is mutated in a subset of patients with hereditary nonpolyposis colon cancer. It is unknown whether the expression of JTV-1 affects that of PMS2, or vice versa, as a result of their juxtaposition. JTV-1 is up-regulated while PMS2 is down-regulated in tumor cell spheroids that show increased resistance to anticancer cytotoxic drugs compared with tumor cell monolayers indicating that suppressed DNA mismatch repair may be a mechanism for multicellular resistance to alkylating agents.
Probab=98.23 E-value=5.1e-07 Score=63.79 Aligned_cols=70 Identities=17% Similarity=0.100 Sum_probs=49.4
Q ss_pred HHHHHHHhCCCCCCCCCCHHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEeccC
Q psy10373 105 IAYLAEQYGKDDSLYPKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHTDL 183 (215)
Q Consensus 105 ~~YL~~~~~~~~~L~p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~f 183 (215)
++||++.-+ |+|.++.+++++++|+.+....+. .+ . . ......+. +|.+|.+++|
T Consensus 1 ~r~~~~~~~----~~~~~~~~~~~vd~~~d~~~~~l~------------~~----~-~---~~~~~~l~~le~~L~~~~f 56 (96)
T cd03200 1 ARFLYRLLG----PAPNAPNAATNIDSWVDTAIFQLA------------EG----S-S---KEKAAVLRALNSALGRSPW 56 (96)
T ss_pred CchHHHHhc----ccCCCchHHHHHHHHHHHHHHHHh------------cC----C-H---HHHHHHHHHHHHHHcCCCc
Confidence 479998832 999999999999999986543322 00 1 1 11112333 5677888899
Q ss_pred CCCCCCCHhHHhhCC
Q psy10373 184 MKGEHLTPEFLKLNP 198 (215)
Q Consensus 184 l~Gd~~T~ADi~l~P 198 (215)
++|+++|+|||.+.+
T Consensus 57 l~Gd~~tiADi~l~~ 71 (96)
T cd03200 57 LVGSEFTVADIVSWC 71 (96)
T ss_pred cCCCCCCHHHHHHHH
Confidence 999999999999843
No 66
>cd03187 GST_C_Phi GST_C family, Class Phi subfamily; composed of plant-specific class Phi GSTs and related fungal and bacterial proteins. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The class Phi GST subfamily has experience extensive gene duplication. The Arabidopsis and Oryza genomes contain 13 and 16 Tau GSTs, respectively. They are primarily responsible for herbicide detoxification together with class Tau GSTs, showing class specificity in substrate preference. Phi enzymes a
Probab=98.22 E-value=3.7e-07 Score=66.13 Aligned_cols=75 Identities=16% Similarity=0.153 Sum_probs=49.8
Q ss_pred HHHHHHHHHhhhccccchhcccceeecccc---CCCCCCc--hHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFY---YVPGSAP--CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~---~~~~~~~--~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
+|+++++|+.|.++.+.+.+........+. +.+.++. ......+.+.++ +|.+|++++|++|+++|+|||++.|
T Consensus 2 ~ra~~~~~l~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~l~G~~~t~aDi~l~~ 81 (118)
T cd03187 2 ERAIVEQWLEVESHQFDPPASALAFELVFKPMLGLPTDEAVVEENEEKLKKVLDVYEARLSKSKYLAGDSFTLADLSHLP 81 (118)
T ss_pred chHHHHHHHHHHHhhcchhHHHHHHHHHHhhccCCCCCHHHHHHHHHHHHHHHHHHHHHcccCcccCCCCccHHHHHHHH
Confidence 689999999999998888765432211111 1111111 112334555566 6899988899999999999999854
Q ss_pred C
Q psy10373 199 Q 199 (215)
Q Consensus 199 ~ 199 (215)
.
T Consensus 82 ~ 82 (118)
T cd03187 82 Y 82 (118)
T ss_pred H
Confidence 3
No 67
>cd03052 GST_N_GDAP1 GST_N family, Ganglioside-induced differentiation-associated protein 1 (GDAP1) subfamily; GDAP1 was originally identified as a highly expressed gene at the differentiated stage of GD3 synthase-transfected cells. More recently, mutations in GDAP1 have been reported to cause both axonal and demyelinating autosomal-recessive Charcot-Marie-Tooth (CMT) type 4A neuropathy. CMT is characterized by slow and progressive weakness and atrophy of muscles. Sequence analysis of GDAP1 shows similarities and differences with GSTs; it appears to contain both N-terminal TRX-fold and C-terminal alpha helical domains of GSTs, however, it also contains additional C-terminal transmembrane domains unlike GSTs. GDAP1 is mainly expressed in neuronal cells and is localized in the mitochondria through its transmembrane domains. It does not exhibit GST activity using standard substrates.
Probab=98.19 E-value=8.5e-06 Score=54.48 Aligned_cols=62 Identities=26% Similarity=0.358 Sum_probs=52.3
Q ss_pred cCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 154 YYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 154 ~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
+..+.++.+++++.+...++++.++...+...|++.+....++||.|++|++.++|..++||
T Consensus 4 y~~~~s~~s~rv~~~L~e~gl~~e~~~v~~~~~~~~~~~~~~inP~g~vP~L~~~g~~l~Es 65 (73)
T cd03052 4 YHWTQSFSSQKVRLVIAEKGLRCEEYDVSLPLSEHNEPWFMRLNPTGEVPVLIHGDNIICDP 65 (73)
T ss_pred ecCCCCccHHHHHHHHHHcCCCCEEEEecCCcCccCCHHHHHhCcCCCCCEEEECCEEEEcH
Confidence 44455666778888899999988888777777888888899999999999999999999997
No 68
>cd03178 GST_C_Ure2p_like GST_C family, Ure2p-like subfamily; composed of the Saccharomyces cerevisiae Ure2p and related GSTs. Ure2p is a regulator for nitrogen catabolism in yeast. It represses the expression of several gene products involved in the use of poor nitrogen sources when rich sources are available. A transmissible conformational change of Ure2p results in a prion called [Ure3], an inactive, self-propagating and infectious amyloid. Ure2p displays a GST fold containing an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain. The N-terminal thioredoxin-fold domain is sufficient to induce the [Ure3] phenotype and is also called the prion domain of Ure2p. In addition to its role in nitrogen regulation, Ure2p confers protection to cells against heavy metal ion and oxidant toxicity, and shows glutathione (GSH) peroxidase activity. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of GSH with a wide range of en
Probab=98.19 E-value=2.1e-07 Score=67.01 Aligned_cols=72 Identities=19% Similarity=0.144 Sum_probs=49.2
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCCCCCc--hHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAP--CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLN 197 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~--~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~ 197 (215)
+|+++++|++|.++.+.+.+...+....+ ..+..+. ........+.+. +|..|++++|++|+++|+|||.+.
T Consensus 1 ~ra~~~~wl~~~~~~~~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~l~G~~~t~aDi~l~ 75 (113)
T cd03178 1 ERYEVLQWLFFQMGGLGPMFGQAGHFSRY-APEKIPYAIERYTNEAKRLYGVLDKRLAGRDYLAGDEYSIADIAIF 75 (113)
T ss_pred ChHHHHHHHHHHHccCCCcchHHHHHHHh-CCCCChHHHHHHHHHHHHHHHHHHHHHccCCcccCCCCCeeeeeHH
Confidence 58999999999999999886644332111 1111111 112334555555 588888889999999999999884
No 69
>cd03185 GST_C_Tau GST_C family, Class Tau subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The plant-specific class Tau GST subfamily has undergone extensive gene duplication. The Arabidopsis and Oryza genomes contain 28 and 40 Tau GSTs, respectively. They are primarily responsible for herbicide detoxification together with class Phi GSTs, showing class specificity in substrate preference. Tau enzymes are highly efficient in detoxifying diphenylether and aryloxyphenoxypropi
Probab=98.18 E-value=3.2e-07 Score=67.39 Aligned_cols=70 Identities=14% Similarity=0.133 Sum_probs=49.9
Q ss_pred HHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 123 PKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 123 ~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
|.+|+++++|+.|.++.+.+.+...+.. . ..........+...++ +|.+|.+++|++|+++|+||+.+.|
T Consensus 1 p~~ra~~~~w~~~~~~~~~~~~~~~~~~-----~-~~~~~~~~~~~~~~l~~le~~L~~~~~l~G~~~t~ADi~l~~ 71 (126)
T cd03185 1 PYERAVARFWAAFIDDKLFPAGRKVLAA-----K-GEEREKAKEEALEALKVLEEELGGKPFFGGDTIGYVDIALGS 71 (126)
T ss_pred ChhHHHHHHHHHHHHHHHHHHHHHHHcc-----c-hHHHHHHHHHHHHHHHHHHHHhcCCCCCCCCCcchHHHHHHH
Confidence 3589999999999998888776544321 1 1111223344555555 6888888899999999999999855
No 70
>cd03191 GST_C_Zeta GST_C family, Class Zeta subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Class Zeta GSTs, also known as maleylacetoacetate (MAA) isomerases, catalyze the isomerization of MAA to fumarylacetoacetate, the penultimate step in tyrosine/phenylalanine catabolism, using GSH as a cofactor. They show little GSH-conjugating activity towards traditional GST substrates, but display modest GSH peroxidase activity. They are also implicated in the detoxification of th
Probab=98.10 E-value=2.3e-07 Score=67.85 Aligned_cols=76 Identities=14% Similarity=-0.010 Sum_probs=48.3
Q ss_pred HHHHHHHHHHHhhhccccchhcccceeeccccCC-CC-CCc--hHHHHHHHHHcC-CCcEEE--eccCCCCCCCCHhHHh
Q psy10373 123 PKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYV-PG-SAP--CRAVQLAAAQIG-VPLNLK--HTDLMKGEHLTPEFLK 195 (215)
Q Consensus 123 ~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~-~~-~~~--~~~~~~~~~~l~-le~~L~--~~~fl~Gd~~T~ADi~ 195 (215)
|.+|+++++|+.|.++.+++.+....... .... +. ... ........+.+. +|.+|+ ..+|++|+++|+|||+
T Consensus 1 p~~ra~~~~w~~~~~~~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~~~l~G~~~t~ADi~ 79 (121)
T cd03191 1 PKKRARVRALALIIACDIHPLNNLRVLKY-LTEELGLDEEAKNAWYRHWIARGFAALEKLLAQTAGKFCFGDEPTLADIC 79 (121)
T ss_pred ChhHHHHHHHHHHHHccCCccccHHHHHH-HHHhcCCCHHHHHHHHHHHHHHHHHHHHHHHHhcCCCeecCCcCCHHHHH
Confidence 45899999999999999887643322211 1111 10 011 112233455555 588887 3579999999999999
Q ss_pred hCCC
Q psy10373 196 LNPQ 199 (215)
Q Consensus 196 l~P~ 199 (215)
+.|.
T Consensus 80 ~~~~ 83 (121)
T cd03191 80 LVPQ 83 (121)
T ss_pred HHHH
Confidence 9654
No 71
>cd00570 GST_N_family Glutathione S-transferase (GST) family, N-terminal domain; a large, diverse group of cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. In addition, GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. This family, also referred to as soluble GSTs, is the largest family of GSH transferases and is only distantly related to the mitochondrial GSTs (GSTK subfamily, a member of the DsbA family). Soluble GSTs bear no structural similarity to microsomal GSTs (MAPEG family) and display additional activities unique to their group, such as catalyzing thiolysis, reduction and isomerization of certain compounds. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical doma
Probab=98.03 E-value=8.4e-07 Score=57.41 Aligned_cols=55 Identities=13% Similarity=0.123 Sum_probs=39.7
Q ss_pred CCCcccccceeecccccccccceeeccCCc-----CCCCcceecC--CCCeeeeeHHHHHHHHH
Q psy10373 53 SSPWVAGDNITIADCSIVASLSTIECSTSD-----HMASQTRHPG--NLLVLMFSSRAIIAYLA 109 (215)
Q Consensus 53 g~~y~~~~~l~l~~~~~~~~~~~~~~~~~e-----~~~P~GkVPv--ddg~~L~ES~AI~~YL~ 109 (215)
+.|-++...+...++++.. ..++..... ..+|.+++|+ ++|..++||.+|++||+
T Consensus 10 ~~~~~~~~~l~~~~i~~~~--~~~~~~~~~~~~~~~~~~~~~~P~l~~~~~~~~es~~I~~yl~ 71 (71)
T cd00570 10 PRSLRVRLALEEKGLPYEL--VPVDLGEGEQEEFLALNPLGKVPVLEDGGLVLTESLAILEYLA 71 (71)
T ss_pred ccHHHHHHHHHHcCCCcEE--EEeCCCCCCCHHHHhcCCCCCCCEEEECCEEEEcHHHHHHHhC
Confidence 5566667777777777654 222433322 2569999999 78999999999999984
No 72
>cd03045 GST_N_Delta_Epsilon GST_N family, Class Delta and Epsilon subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The class Delta and Epsilon subfamily is made up primarily of insect GSTs, which play major roles in insecticide resistance by facilitating reductive dehydrochlorination of insecticides or conjugating them with GSH to produce water-soluble metabolites that are easily excreted. They are also implicated in protection against cellular damage by oxidative stress.
Probab=98.03 E-value=2.7e-05 Score=51.65 Aligned_cols=63 Identities=68% Similarity=1.164 Sum_probs=52.4
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
++..+.++.+++++.+...++++.+....+...|++.+.....++|.+++|+++++|..++||
T Consensus 3 Ly~~~~~~~~~~v~~~l~~~gi~~e~~~i~~~~~~~~~~~~~~~~p~~~vP~l~~~~~~l~es 65 (74)
T cd03045 3 LYYLPGSPPCRAVLLTAKALGLELNLKEVNLMKGEHLKPEFLKLNPQHTVPTLVDNGFVLWES 65 (74)
T ss_pred EEeCCCCCcHHHHHHHHHHcCCCCEEEEecCccCCcCCHHHHhhCcCCCCCEEEECCEEEEcH
Confidence 345555677778888899999988877777777888888889999999999999999999987
No 73
>KOG0867|consensus
Probab=98.02 E-value=1.1e-05 Score=65.72 Aligned_cols=64 Identities=50% Similarity=0.802 Sum_probs=56.9
Q ss_pred cccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 152 DFYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 152 ~l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
.+|+...++..+++......++++..+...+...|++.|.+++++||.|+||+++++|+.++||
T Consensus 4 ~ly~~~~s~~~r~vl~~~~~~~l~~e~~~v~~~~ge~~~pefl~~nP~~kVP~l~d~~~~l~eS 67 (226)
T KOG0867|consen 4 KLYGHLGSPPARAVLIAAKELGLEVELKPVDLVKGEQKSPEFLKLNPLGKVPALEDGGLTLWES 67 (226)
T ss_pred eEeecCCCcchHHHHHHHHHcCCceeEEEeeccccccCCHHHHhcCcCCCCCeEecCCeEEeeH
Confidence 3556666777888888899999988888888999999999999999999999999999999997
No 74
>cd03181 GST_C_EFB1gamma GST_C family, Gamma subunit of Elongation Factor 1B (EFB1gamma) subfamily; EF1Bgamma is part of the eukaryotic translation elongation factor-1 (EF1) complex which plays a central role in the elongation cycle during protein biosynthesis. EF1 consists of two functionally distinct units, EF1A and EF1B. EF1A catalyzes the GTP-dependent binding of aminoacyl-tRNA to the ribosomal A site concomitant with the hydrolysis of GTP. The resulting inactive EF1A:GDP complex is recycled to the active GTP form by the guanine-nucleotide exchange factor EF1B, a complex composed of at least two subunits, alpha and gamma. Metazoan EFB1 contain a third subunit, beta. The EF1B gamma subunit contains a GST fold consisting of an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain. The GST-like domain of EF1Bgamma is believed to mediate the dimerization of the EF1 complex, which in yeast is a dimer of the heterotrimer EF1A:EF1Balpha:EF1Bgamma. In addition to its role
Probab=97.97 E-value=1.4e-06 Score=63.67 Aligned_cols=72 Identities=19% Similarity=0.183 Sum_probs=49.4
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCCCCCc--hHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAP--CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLN 197 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~--~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~ 197 (215)
+|+++++|+.|.++.+++.+...+.+.. ...+.... ......+...++ +|..|+.++|++|+++|+||+.+.
T Consensus 1 ~ra~~~~wl~~~~~~~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~~~l~~le~~l~~~~~l~G~~~siaDi~l~ 75 (123)
T cd03181 1 EEAQVLQWVSFANTELLPAVAAWFLPLL-GIAPYNKKSVEAALEELDRVLGVLEERLLKRTYLVGERLTLADIFVA 75 (123)
T ss_pred ChHHHHHHHHHHHhhhHHHHHHHHHHHc-CccCCCHHHHHHHHHHHHHHHHHHHHHHccCceeccCCccHHHHHHH
Confidence 5889999999999999988765444321 11111111 112334455565 688888889999999999999884
No 75
>cd03047 GST_N_2 GST_N family, unknown subfamily 2; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The sequence from Burkholderia cepacia was identified as part of a gene cluster involved in the degradation of 2,4,5-trichlorophenoxyacetic acid. Some GSTs (e.g. Class Zeta and Delta) are known to catalyze dechlorination reactions.
Probab=97.93 E-value=5.2e-05 Score=50.34 Aligned_cols=62 Identities=27% Similarity=0.407 Sum_probs=50.1
Q ss_pred cCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 154 YYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 154 ~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
++.+.++..+++..+...++++..+...+...|++.+.....++|.+++|++.++|..++||
T Consensus 4 ~~~~~s~~~~~v~~~L~~~~l~~~~~~~~~~~~~~~~~~~~~~nP~~~vP~L~~~~~~l~eS 65 (73)
T cd03047 4 WGRRSSINVQKVLWLLDELGLPYERIDAGGQFGGLDTPEFLAMNPNGRVPVLEDGDFVLWES 65 (73)
T ss_pred EecCCCcchHHHHHHHHHcCCCCEEEEeccccccccCHHHHhhCCCCCCCEEEECCEEEECH
Confidence 44455666778888888899988777665555667777888999999999999999999997
No 76
>cd03190 GST_C_ECM4_like GST_C family, ECM4-like subfamily; composed of predominantly uncharacterized and taxonomically diverse proteins with similarity to the translation product of the Saccharomyces cerevisiae gene ECM4. ECM4, a gene of unknown function, is involved in cell surface biosynthesis and architecture. S. cerevisiae ECM4 mutants show increased amounts of the cell wall hexose, N-acetylglucosamine. More recently, global gene expression analysis shows that ECM4 is upregulated during genotoxic conditions and together with the expression profiles of 18 other genes could potentially differentiate between genotoxic and cytotoxic insults in yeast.
Probab=97.86 E-value=3.1e-06 Score=64.03 Aligned_cols=71 Identities=13% Similarity=0.048 Sum_probs=48.2
Q ss_pred HHHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCCC
Q psy10373 124 KARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNPQ 199 (215)
Q Consensus 124 ~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P~ 199 (215)
..|+++++|++|.+..+.+.+..... .............+...++ +|.+|.+++|++|+++|+||+.+.|.
T Consensus 3 ~~~a~i~~~~~~~~~~~~~~~~~~~~-----~~~~~~~~~~~~~l~~~l~~LE~~L~~~~yl~Gd~~TlADi~l~~~ 74 (142)
T cd03190 3 ELRSEIDELNEWIYDNINNGVYKAGF-----ATTQEAYDEAVDELFEALDRLEELLSDRRYLLGDRLTEADIRLFTT 74 (142)
T ss_pred hHHHHHHHHHHHHHHHHhhHHHHHhh-----ccCHHHHHHHHHHHHHHHHHHHHHHccCCeeeCCCccHHHHHHHHH
Confidence 46899999999999888776432111 1111111223445556666 68888889999999999999998543
No 77
>cd03050 GST_N_Theta GST_N family, Class Theta subfamily; composed of eukaryotic class Theta GSTs and bacterial dichloromethane (DCM) dehalogenase. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Mammalian class Theta GSTs show poor GSH conjugating activity towards the standard substrates, CDNB and ethacrynic acid, differentiating them from other mammalian GSTs. GSTT1-1 shows similar cataytic activity as bacterial DCM dehalogenase, catalyzing the GSH-dependent hydrolytic dehalogenation of dihalomethanes. This is an essential process in methylotrophic bacteria to enable them to use chloromethane and DC
Probab=97.85 E-value=8e-05 Score=49.79 Aligned_cols=63 Identities=43% Similarity=0.621 Sum_probs=50.6
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
+++.+.++..+++..+...++++......++..|++.+.....++|.+++|++.++|..++||
T Consensus 3 ly~~~~s~~~~~v~~~l~~~g~~~~~~~v~~~~~~~~~~~~~~~~p~~~vP~L~~~~~~l~eS 65 (76)
T cd03050 3 LYYDLMSQPSRAVYIFLKLNKIPFEECPIDLRKGEQLTPEFKKINPFGKVPAIVDGDFTLAES 65 (76)
T ss_pred EeeCCCChhHHHHHHHHHHcCCCcEEEEecCCCCCcCCHHHHHhCcCCCCCEEEECCEEEEcH
Confidence 344455666777778888889987777777766777777788899999999999999999987
No 78
>cd03195 GST_C_4 GST_C family, unknown subfamily 4; composed of uncharacterized proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=97.81 E-value=9.7e-06 Score=58.90 Aligned_cols=75 Identities=15% Similarity=-0.005 Sum_probs=46.2
Q ss_pred HHHHHHHHHHHhhhccccchhcccceeeccccCCCC-CCchHHHHHHHHHcC-CCcEEE-eccCCCCCCCCHhHHhhCC
Q psy10373 123 PKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPG-SAPCRAVQLAAAQIG-VPLNLK-HTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 123 ~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~-~~~~~~~~~~~~~l~-le~~L~-~~~fl~Gd~~T~ADi~l~P 198 (215)
|.+|+++++|+.|.++++++......+...+.+... .......+.+.+.+. +|..|. +++|++| ++|+||+.+.+
T Consensus 1 ~~~ra~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~le~~l~~~~~~l~G-~fSiAD~~l~~ 78 (114)
T cd03195 1 PRQRARARQVQAWLRSDLLPIRVERSTEVVFAGAKAEPLSEAAQAAAEKLIAVAEALLPPGAANLFG-EWCIADTDLAL 78 (114)
T ss_pred CHhhHHHHHHHHHHHhhHHHHHHhCCccceecCCCCCCCCHHHHHHHHHHHHHHHHHHhcCCCcccC-CccHHHHHHHH
Confidence 468999999999999999876221111111111111 111223334455555 477774 5589999 59999999844
No 79
>cd03183 GST_C_Theta GST_C family, Class Theta subfamily; composed of eukaryotic class Theta GSTs and bacterial dichloromethane (DCM) dehalogenase. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Mammalian class Theta GSTs show poor GSH conjugating activity towards the standard substrates, CDNB and ethacrynic acid, differentiating them from other mammalian GSTs. GSTT1-1 shows similar cataytic activity as bacterial DCM dehalogenase, catalyzing the GSH-dependent hydrolytic dehalogenatio
Probab=97.78 E-value=2.6e-06 Score=62.60 Aligned_cols=74 Identities=19% Similarity=0.156 Sum_probs=46.1
Q ss_pred HHHHHHHHHhhhccccchhcccceeecc----ccCCCCCCch--HHHHHHHHHcC-CCcE-EEeccCCCCCCCCHhHHhh
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTID----FYYVPGSAPC--RAVQLAAAQIG-VPLN-LKHTDLMKGEHLTPEFLKL 196 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~----l~~~~~~~~~--~~~~~~~~~l~-le~~-L~~~~fl~Gd~~T~ADi~l 196 (215)
+|+++++|++|..+.+.+.+...+.... +.+.+..+.. .......+.+. +|.+ +++++|++||++|+||+.+
T Consensus 1 ~ra~~~~wl~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~l~~~~~~l~Gd~~t~ADi~l 80 (126)
T cd03183 1 KRARVDEYLAWQHTNLRLGCAKYFWQKVLLPLLGGKPVSPEKVKKAEENLEESLDLLENYFLKDKPFLAGDEISIADLSA 80 (126)
T ss_pred CcccHHHHHHHHHhhhHhhHHHHHHHHHHHHhhcCCCCCHHHHHHHHHHHHHHHHHHHHHHhcCCCcccCCCCCHHHHHH
Confidence 4788999999999888876544322211 1111111111 12234455555 5776 4557899999999999988
Q ss_pred CC
Q psy10373 197 NP 198 (215)
Q Consensus 197 ~P 198 (215)
.+
T Consensus 81 ~~ 82 (126)
T cd03183 81 VC 82 (126)
T ss_pred HH
Confidence 54
No 80
>PLN02473 glutathione S-transferase
Probab=97.78 E-value=8.2e-05 Score=59.66 Aligned_cols=64 Identities=30% Similarity=0.360 Sum_probs=54.5
Q ss_pred cccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 152 DFYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 152 ~l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
++|+.+.++.+.++..+...++++.+....+...|++.+.+...+||.|+||+++++|..|+||
T Consensus 4 kLy~~~~s~~~~rv~~~L~e~gi~ye~~~v~~~~~~~~~~~~~~~nP~g~vP~L~~~g~~l~ES 67 (214)
T PLN02473 4 KVYGQIKAANPQRVLLCFLEKGIEFEVIHVDLDKLEQKKPEHLLRQPFGQVPAIEDGDLKLFES 67 (214)
T ss_pred EEecCCCCCchHHHHHHHHHcCCCceEEEecCcccccCCHHHHhhCCCCCCCeEEECCEEEEeh
Confidence 4566666667778888889999988887777777888898999999999999999999999997
No 81
>cd03053 GST_N_Phi GST_N family, Class Phi subfamily; composed of plant-specific class Phi GSTs and related fungal and bacterial proteins. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The class Phi GST subfamily has experience extensive gene duplication. The Arabidopsis and Oryza genomes contain 13 and 16 Phi GSTs, respectively. They are primarily responsible for herbicide detoxification together with class Tau GSTs, showing class specificity in substrate preference. Phi enzymes are highly reactive toward chloroacetanilide and thiocarbamate herbicides. Some Phi GSTs have other functions including t
Probab=97.76 E-value=0.00014 Score=48.52 Aligned_cols=63 Identities=37% Similarity=0.509 Sum_probs=50.5
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
++..+.++.+.+++.+....+++......+...+++.+.....++|.+++|++.++|..++||
T Consensus 4 Ly~~~~s~~s~~v~~~l~~~~i~~~~~~~~~~~~~~~~~~~~~~~P~~~vP~l~~~g~~l~es 66 (76)
T cd03053 4 LYGAAMSTCVRRVLLCLEEKGVDYELVPVDLTKGEHKSPEHLARNPFGQIPALEDGDLKLFES 66 (76)
T ss_pred EEeCCCChhHHHHHHHHHHcCCCcEEEEeCccccccCCHHHHhhCCCCCCCEEEECCEEEEcH
Confidence 445555677778888889999887776666655666777788999999999999999999987
No 82
>cd03056 GST_N_4 GST_N family, unknown subfamily 4; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains.
Probab=97.74 E-value=0.00017 Score=47.42 Aligned_cols=62 Identities=42% Similarity=0.713 Sum_probs=49.8
Q ss_pred cCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 154 YYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 154 ~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
+..+.++...+++.+....+++......+...|++.+.....++|.+++|+++++|..++||
T Consensus 4 y~~~~~~~~~~v~~~l~~~~~~~~~~~i~~~~~~~~~~~~~~~~p~~~vP~l~~~~~~i~es 65 (73)
T cd03056 4 YGFPLSGNCYKVRLLLALLGIPYEWVEVDILKGETRTPEFLALNPNGEVPVLELDGRVLAES 65 (73)
T ss_pred EeCCCCccHHHHHHHHHHcCCCcEEEEecCCCcccCCHHHHHhCCCCCCCEEEECCEEEEcH
Confidence 44455666777888888889887777666666777787788999999999999999999987
No 83
>PRK15113 glutathione S-transferase; Provisional
Probab=97.71 E-value=0.00011 Score=59.25 Aligned_cols=58 Identities=33% Similarity=0.508 Sum_probs=51.8
Q ss_pred CCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 158 GSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 158 ~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
.++.+.++..+...++++.+....++..|++.+.+..++||.|+||+|+++|..|+||
T Consensus 15 ~s~~~~rv~~~l~e~gi~~e~~~v~~~~~~~~~~~~~~~nP~g~VP~L~~~~~~l~ES 72 (214)
T PRK15113 15 FSPYVMSAFVALQEKGLPFELKTVDLDAGEHLQPTYQGYSLTRRVPTLQHDDFELSES 72 (214)
T ss_pred CCchHHHHHHHHHHcCCCCeEEEeCCCCccccCHHHHhcCCCCCCCEEEECCEEEecH
Confidence 3566778888899999988888888888998999999999999999999999999997
No 84
>cd03203 GST_C_Lambda GST_C family, Class Lambda subfamily; composed of plant-specific class Lambda GSTs. GSTs are cytosolic, usually dimeric, proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The class Lambda subfamily was recently discovered, together with dehydroascorbate reductases (DHARs), as two outlying groups of the GST superfamily in Arabidopsis thaliana, which contain conserved active site cysteines. Characterization of recombinant A. thaliana proteins show that Lambda class GSTs are monomeric, similar
Probab=97.63 E-value=3e-05 Score=56.83 Aligned_cols=65 Identities=20% Similarity=0.265 Sum_probs=37.2
Q ss_pred CHHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEE---eccCCCCCCCCHhHHhhC
Q psy10373 122 DPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLK---HTDLMKGEHLTPEFLKLN 197 (215)
Q Consensus 122 d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~---~~~fl~Gd~~T~ADi~l~ 197 (215)
|+.+||+|+|||+|. ..+...+++..+.+.+ ... . .+.+. +|..|+ +++|++| ++|+||+++.
T Consensus 1 d~~~ra~~~~~~~~~-----~~~~~~~~~~~~~~~~-~~~---~---~~~l~~Le~~L~~~~~~~fl~G-~~tlADi~l~ 67 (120)
T cd03203 1 DPAKREFADELLAYT-----DAFTKALYSSLIKGDP-SAE---A---AAALDYIENALSKFDDGPFFLG-QFSLVDIAYV 67 (120)
T ss_pred CHHHHHHHHHHHHHH-----HHHHHHHHHHHhcCCc-hHH---H---HHHHHHHHHHHHhcCCCCCcCC-CccHHHHHHH
Confidence 578999999999992 2222222222222222 111 1 11111 233332 4789999 9999999996
Q ss_pred CC
Q psy10373 198 PQ 199 (215)
Q Consensus 198 P~ 199 (215)
|.
T Consensus 68 ~~ 69 (120)
T cd03203 68 PF 69 (120)
T ss_pred HH
Confidence 64
No 85
>cd03048 GST_N_Ure2p_like GST_N family, Ure2p-like subfamily; composed of the Saccharomyces cerevisiae Ure2p and related GSTs. Ure2p is a regulator for nitrogen catabolism in yeast. It represses the expression of several gene products involved in the use of poor nitrogen sources when rich sources are available. A transmissible conformational change of Ure2p results in a prion called [Ure3], an inactive, self-propagating and infectious amyloid. Ure2p displays a GST fold containing an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The N-terminal TRX-fold domain is sufficient to induce the [Ure3] phenotype and is also called the prion domain of Ure2p. In addition to its role in nitrogen regulation, Ure2p confers protection to cells against heavy metal ion and oxidant toxicity, and shows glutathione (GSH) peroxidase activity. Characterized GSTs in this subfamily include Aspergillus fumigatus GSTs 1 and 2, and
Probab=97.60 E-value=0.0003 Score=47.57 Aligned_cols=62 Identities=31% Similarity=0.553 Sum_probs=49.4
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeC---CeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDN---GYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~---G~~l~es 215 (215)
+++.+. +.+++++.+...++++..+...+...|++.+.....++|.+++|+++++ |..|+||
T Consensus 4 Ly~~~~-~~~~~v~~~l~~~gl~~~~~~~~~~~~~~~~~~~~~~~p~~~vP~l~~~~~~g~~l~eS 68 (81)
T cd03048 4 LYTHGT-PNGFKVSIMLEELGLPYEIHPVDISKGEQKKPEFLKINPNGRIPAIVDHNGTPLTVFES 68 (81)
T ss_pred EEeCCC-CChHHHHHHHHHcCCCcEEEEecCcCCcccCHHHHHhCcCCCCCEEEeCCCCceEEEcH
Confidence 344443 6677888889999998777666655567778888899999999999976 8999987
No 86
>cd03051 GST_N_GTT2_like GST_N family, Saccharomyces cerevisiae GTT2-like subfamily; composed of predominantly uncharacterized proteins with similarity to the S. cerevisiae GST protein, GTT2. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GTT2, a homodimer, exhibits GST activity with standard substrates. Strains with deleted GTT2 genes are viable but exhibit increased sensitivity to heat shock.
Probab=97.59 E-value=0.0003 Score=46.26 Aligned_cols=63 Identities=37% Similarity=0.626 Sum_probs=50.3
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEE-eCCeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMD-DNGYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~-~~G~~l~es 215 (215)
+++.+.++.+++++.+....+++......++..|++.+.....++|.+++|++. ++|..++||
T Consensus 3 Ly~~~~s~~~~~~~~~L~~~~l~~~~~~v~~~~~~~~~~~~~~~~p~~~vP~l~~~~~~~l~es 66 (74)
T cd03051 3 LYDSPTAPNPRRVRIFLAEKGIDVPLVTVDLAAGEQRSPEFLAKNPAGTVPVLELDDGTVITES 66 (74)
T ss_pred EEeCCCCcchHHHHHHHHHcCCCceEEEeecccCccCCHHHHhhCCCCCCCEEEeCCCCEEecH
Confidence 445555677888888888889887777667666777777788999999999998 578889887
No 87
>cd03042 GST_N_Zeta GST_N family, Class Zeta subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Class Zeta GSTs, also known as maleylacetoacetate (MAA) isomerases, catalyze the isomerization of MAA to fumarylacetoacetate, the penultimate step in tyrosine/phenylalanine catabolism, using GSH as a cofactor. They show little GSH-conjugating activity towards traditional GST substrates but display modest GSH peroxidase activity. They are also implicated in the detoxification of the carcinogen dichloroacetic acid by catalyzing its dechlorination to glyoxylic acid.
Probab=97.58 E-value=0.00041 Score=45.61 Aligned_cols=62 Identities=32% Similarity=0.495 Sum_probs=49.1
Q ss_pred cCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 154 YYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 154 ~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
+....++...+++.+...++++......+...|.+.+.....++|.+++|++.++|..++||
T Consensus 4 ~~~~~~~~~~~~~~~l~~~gi~~~~~~~~~~~~~~~~~~~~~~~p~~~vP~l~~~~~~l~es 65 (73)
T cd03042 4 YSYFRSSASYRVRIALNLKGLDYEYVPVNLLKGEQLSPAYRALNPQGLVPTLVIDGLVLTQS 65 (73)
T ss_pred ecCCCCcchHHHHHHHHHcCCCCeEEEecCccCCcCChHHHHhCCCCCCCEEEECCEEEEcH
Confidence 33344566677788888889887777666666777777788899999999999999999987
No 88
>PF02798 GST_N: Glutathione S-transferase, N-terminal domain; InterPro: IPR004045 In eukaryotes, glutathione S-transferases (GSTs) participate in the detoxification of reactive electrophillic compounds by catalysing their conjugation to glutathione. The GST domain is also found in S-crystallins from squid, and proteins with no known GST activity, such as eukaryotic elongation factors 1-gamma and the HSP26 family of stress-related proteins, which include auxin-regulated proteins in plants and stringent starvation proteins in Escherichia coli. The major lens polypeptide of Cephalopoda is also a GST [, , , ]. Bacterial GSTs of known function often have a specific, growth-supporting role in biodegradative metabolism: epoxide ring opening and tetrachlorohydroquinone reductive dehalogenation are two examples of the reactions catalysed by these bacterial GSTs. Some regulatory proteins, like the stringent starvation proteins, also belong to the GST family [, ]. GST seems to be absent from Archaea in which gamma-glutamylcysteine substitute to glutathione as major thiol. Soluble GSTs activate glutathione (GSH) to GS-. In many GSTs, this is accomplished by a Tyr at H-bonding distance from the sulphur of GSH. These enzymes catalyse nucleophilic attack by reduced glutathione (GSH) on nonpolar compounds that contain an electrophillic carbon, nitrogen, or sulphur atom []. Glutathione S-transferases form homodimers, but in eukaryotes can also form heterodimers of the A1 and A2 or YC1 and YC2 subunits. The homodimeric enzymes display a conserved structural fold, with each monomer composed of two distinct domains []. The N-terminal domain forms a thioredoxin-like fold that binds the glutathione moiety, while the C-terminal domain contains several hydrophobic alpha-helices that specifically bind hydrophobic substrates. This entry represents the N-terminal domain of GST.; GO: 0005515 protein binding; PDB: 2VCT_H 2WJU_B 4ACS_A 1BYE_D 1AXD_B 2VCV_P 1TDI_A 1JLV_D 1Y6E_A 1U88_B ....
Probab=97.45 E-value=0.00043 Score=46.46 Aligned_cols=55 Identities=38% Similarity=0.682 Sum_probs=46.1
Q ss_pred chHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCC-CccceEEeC-CeeeecC
Q psy10373 161 PCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQ-HTVPTMDDN-GYTLSER 215 (215)
Q Consensus 161 ~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~-g~lp~l~~~-G~~l~es 215 (215)
....++.+.+..+++......++-.|++.+....+.+|. |++|+++++ |+.++||
T Consensus 11 ~~~~~r~~l~~~gv~~e~~~v~~~~~~~~~~e~~~~~p~~g~vP~l~~~~~~~l~es 67 (76)
T PF02798_consen 11 RSERIRLLLAEKGVEYEDVRVDFEKGEHKSPEFLAINPMFGKVPALEDGDGFVLTES 67 (76)
T ss_dssp TTHHHHHHHHHTT--EEEEEEETTTTGGGSHHHHHHTTTSSSSSEEEETTTEEEESH
T ss_pred chHHHHHHHHHhcccCceEEEecccccccchhhhhcccccceeeEEEECCCCEEEcH
Confidence 455677888888898888888888888888888999999 999999999 9999997
No 89
>PRK09481 sspA stringent starvation protein A; Provisional
Probab=97.44 E-value=0.00039 Score=55.80 Aligned_cols=62 Identities=26% Similarity=0.502 Sum_probs=50.6
Q ss_pred ccccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 151 IDFYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 151 ~~l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
+.+|+.+.++.+.++..+...++++..+...+. ++.+.+...+||.|+||+++++|+.|+||
T Consensus 11 ~~Ly~~~~s~~~~rv~~~L~e~gl~~e~~~v~~---~~~~~~~~~~nP~g~VPvL~~~g~~l~ES 72 (211)
T PRK09481 11 MTLFSGPTDIYSHQVRIVLAEKGVSVEIEQVEK---DNLPQDLIDLNPYQSVPTLVDRELTLYES 72 (211)
T ss_pred eEEeCCCCChhHHHHHHHHHHCCCCCEEEeCCc---ccCCHHHHHhCCCCCCCEEEECCEEeeCH
Confidence 345666666777888888999999887776654 45677899999999999999999999997
No 90
>cd00299 GST_C_family Glutathione S-transferase (GST) family, C-terminal alpha helical domain; a large, diverse group of cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. In addition, GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. This family, also referred to as soluble GSTs, is the largest family of GSH transferases and is only distantly related to the mitochondrial GSTs (GSTK). Soluble GSTs bear no structural similarity to microsomal GSTs (MAPEG family) and display additional activities unique to their group, such as catalyzing thiolysis, reduction and isomerization of certain compounds. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an activ
Probab=97.44 E-value=2.6e-05 Score=54.05 Aligned_cols=68 Identities=13% Similarity=0.024 Sum_probs=45.3
Q ss_pred HHHHhhhccccchhcccceeeccccCCCCCCc--hHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 130 NQRLYFDIGTLYQRFADYFMTIDFYYVPGSAP--CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 130 ~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~--~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
++|+.|....+.+.+......... ..+.... ........+.++ +|.+|++++|++|+++|+||+.+.|
T Consensus 2 ~~~~~~~~~~~~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~~~~~l~~~L~~~~~~~g~~~t~aDi~~~~ 72 (100)
T cd00299 2 RAWEEWADTTLEPAARRLLLLAFV-GPEVDEAALEEAREELAAALAALEKLLAGRPYLAGDRFSLADIALAP 72 (100)
T ss_pred hHHHHHHHhhcCCcccceeeeecc-CCCCCHHHHHHHHHHHHHHHHHHHHHHccCCCCCCCCcCHHHHHHHH
Confidence 579999988888877665554321 1111111 122334555555 6888888899999999999999854
No 91
>cd03207 GST_C_8 GST_C family, unknown subfamily 8; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=97.43 E-value=1.9e-05 Score=55.90 Aligned_cols=64 Identities=16% Similarity=0.156 Sum_probs=44.3
Q ss_pred HHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 130 NQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 130 ~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
++|++|.++.+.+.+...+... ..+........+.+.++ +|.+|++++|++||++|+|||.+.+
T Consensus 2 ~~w~~~~~~~~~~~~~~~~~~~-----~~~~~~~~~~~~~~~l~~le~~l~~~~~l~g~~~t~aDi~~~~ 66 (103)
T cd03207 2 LRWLFFYAGVVEPALIAKAMGI-----EEPARMAGFGSYDDVLAALEQALAKGPYLLGERFTAADVLVGS 66 (103)
T ss_pred eeeeeeccccccHHHHHHHcCC-----CcchhhhhhhhHHHHHHHHHHHHccCCcccCCccCHHHHHHHH
Confidence 5799999888888765443321 11111223344566666 6889998999999999999999843
No 92
>cd03057 GST_N_Beta GST_N family, Class Beta subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Unlike mammalian GSTs which detoxify a broad range of compounds, the bacterial class Beta GSTs exhibit limited GSH conjugating activity with a narrow range of substrates. In addition to GSH conjugation, they also bind antibiotics and reduce the antimicrobial activity of beta-lactam drugs. The structure of the Proteus mirabilis enzyme reveals that the cysteine in the active site forms a covalent bond with GSH.
Probab=97.42 E-value=0.00066 Score=45.33 Aligned_cols=55 Identities=27% Similarity=0.481 Sum_probs=45.0
Q ss_pred chHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeC-CeeeecC
Q psy10373 161 PCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDN-GYTLSER 215 (215)
Q Consensus 161 ~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~-G~~l~es 215 (215)
...+++.+....+++......+...|++.+.+...++|.+++|++.++ |+.++||
T Consensus 10 ~~~~v~~~l~~~~i~~~~~~~~~~~~~~~~~~~~~~np~~~vP~l~~~~g~~l~eS 65 (77)
T cd03057 10 CSLAPHIALEELGLPFELVRVDLRTKTQKGADYLAINPKGQVPALVLDDGEVLTES 65 (77)
T ss_pred chHHHHHHHHHcCCCceEEEEecccCccCCHhHHHhCCCCCCCEEEECCCcEEEcH
Confidence 355677788888888777766666677788889999999999999876 8999987
No 93
>PLN02395 glutathione S-transferase
Probab=97.41 E-value=0.0005 Score=55.09 Aligned_cols=62 Identities=34% Similarity=0.492 Sum_probs=50.1
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
+++... ....++..+...++++.+....+...|++.+.+..++||.|+||+|+++|..|+||
T Consensus 5 ly~~~~-~~~~rv~~~L~e~gl~~e~~~v~~~~~~~~~~~~~~~nP~g~vP~L~~~~~~l~ES 66 (215)
T PLN02395 5 VYGPAF-ASPKRALVTLIEKGVEFETVPVDLMKGEHKQPEYLALQPFGVVPVIVDGDYKIFES 66 (215)
T ss_pred EEcCCc-CcHHHHHHHHHHcCCCceEEEeccccCCcCCHHHHhhCCCCCCCEEEECCEEEEcH
Confidence 344332 34567778888889988777777777888888999999999999999999999997
No 94
>cd03206 GST_C_7 GST_C family, unknown subfamily 7; composed of uncharacterized proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=97.39 E-value=2.1e-05 Score=55.51 Aligned_cols=68 Identities=18% Similarity=0.166 Sum_probs=43.7
Q ss_pred HHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 129 VNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 129 v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
+++|++|..+.+.+......... ....+. ..........+.+. +|.+|++++|++|+++|+||+.+.+
T Consensus 1 ~~~w~~~~~~~~~~~~~~~~~~~-~~~~~~-~~~~~~~~~~~~l~~le~~L~~~~~l~G~~~t~aDi~~~~ 69 (100)
T cd03206 1 VQRWLSVAAGEIANGPAAARLIT-LFGAPL-DKETAIARAHRLLRLLEEHLAGRDWLAGDRPTIADVAVYP 69 (100)
T ss_pred CceehhhhhhhcccchhHHHHHH-HhCCHh-HHHHHHHHHHHHHHHHHHHHccCCccCCCCCCHHHHHHHH
Confidence 36899999999876543322211 111111 11223445566666 5888988999999999999998743
No 95
>KOG2903|consensus
Probab=97.39 E-value=7e-05 Score=61.27 Aligned_cols=102 Identities=17% Similarity=0.211 Sum_probs=67.7
Q ss_pred ceecC--CC---CeeeeeHHHHHHHHH---HHhCC---C--CCCCCCCHHHHHHHHHHHhhhccccchhcccceeecccc
Q psy10373 88 TRHPG--NL---LVLMFSSRAIIAYLA---EQYGK---D--DSLYPKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFY 154 (215)
Q Consensus 88 GkVPv--dd---g~~L~ES~AI~~YL~---~~~~~---~--~~L~p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~ 154 (215)
=+||| |- ..+=.||.-|++-+. +.+.+ . -.|+|. .-|++++.|-.|.-..+-..+-.+ -+.
T Consensus 122 fTVPVLWD~k~ktIVnNES~eIIr~fNs~f~ef~~~~e~~~lDL~P~--~L~~~Ide~N~wvy~~INNGVYk~----GFA 195 (319)
T KOG2903|consen 122 FTVPVLWDLKTKTIVNNESSEIIRMFNSAFDEFNGIAENPVLDLYPS--SLRAQIDETNSWVYDKINNGVYKC----GFA 195 (319)
T ss_pred EEEEEEEccccceeecCchHHHHHHHhhhhhhhhccccCCccccCCH--HHHHHHhhhhceecccccCceeee----ccc
Confidence 37999 42 456789999999998 32221 1 126775 458999999888765554433211 111
Q ss_pred CCCCCCchHHHHHHHHHcC-CCcEEEecc--CCCCCCCCHhHHhh
Q psy10373 155 YVPGSAPCRAVQLAAAQIG-VPLNLKHTD--LMKGEHLTPEFLKL 196 (215)
Q Consensus 155 ~~~~~~~~~~~~~~~~~l~-le~~L~~~~--fl~Gd~~T~ADi~l 196 (215)
. .+..-...+..+.+.++ +|..|+++. |++|+++|.|||.+
T Consensus 196 ~-~~e~Ye~~V~~lfe~LDr~E~vL~~~~~~f~~G~~LTeaDirL 239 (319)
T KOG2903|consen 196 E-KQEAYEEEVNQLFEALDRCEDVLGKNRKYFLCGDTLTEADIRL 239 (319)
T ss_pred c-ccchHHHHHHHHHHHHHHHHHHHhcccceEeeccccchhheee
Confidence 1 11222445666667776 788898877 99999999999999
No 96
>COG0435 ECM4 Predicted glutathione S-transferase [Posttranslational modification, protein turnover, chaperones]
Probab=97.38 E-value=0.00011 Score=60.72 Aligned_cols=101 Identities=16% Similarity=0.193 Sum_probs=68.2
Q ss_pred cceecC--CC---CeeeeeHHHHHHHHHHHhC----CCCCCCCCCHHHHHHHHHHHhhhccccchhcccceeeccccCCC
Q psy10373 87 QTRHPG--NL---LVLMFSSRAIIAYLAEQYG----KDDSLYPKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVP 157 (215)
Q Consensus 87 ~GkVPv--dd---g~~L~ES~AI~~YL~~~~~----~~~~L~p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~ 157 (215)
.=+||| |. -.+=.||.-|++=+...|+ ....|+|.+ -|.+|+.|..|.-.++-..+ +. .+..
T Consensus 127 RvTVPVLwDk~~~tIVnNES~eIirm~N~aFde~~~~~~dlyP~~--Lr~eId~~n~~Iy~~vNNGV----Yk---~GFA 197 (324)
T COG0435 127 RVTVPVLWDKKTQTIVNNESAEIIRMFNSAFDEFGASAVDLYPEA--LRTEIDELNKWIYDTVNNGV----YK---AGFA 197 (324)
T ss_pred ceeEEEEEecCCCeeecCCcHHHHHHHHHHHHHHhhhccccCCHH--HHHHHHHHHhhhcccccCce----ee---eccc
Confidence 347899 32 3456799999998876664 223488854 47888888887655543332 21 1222
Q ss_pred CCCc--hHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhh
Q psy10373 158 GSAP--CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKL 196 (215)
Q Consensus 158 ~~~~--~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l 196 (215)
.+++ +..+..+.+.|+ +|..|+++.|++||++|.||+.+
T Consensus 198 ~tq~aYeea~~~lF~~Ld~lE~~L~~~ryl~Gd~lTEAD~RL 239 (324)
T COG0435 198 TTQEAYEEAVKKLFEALDKLEQILSERRYLTGDQLTEADIRL 239 (324)
T ss_pred chHHHHHHHHHHHHHHHHHHHHHhhcCeeeccccchHhhhhh
Confidence 2222 234555666666 79999999999999999999999
No 97
>cd03044 GST_N_EF1Bgamma GST_N family, Gamma subunit of Elongation Factor 1B (EFB1gamma) subfamily; EF1Bgamma is part of the eukaryotic translation elongation factor-1 (EF1) complex which plays a central role in the elongation cycle during protein biosynthesis. EF1 consists of two functionally distinct units, EF1A and EF1B. EF1A catalyzes the GTP-dependent binding of aminoacyl-tRNA to the ribosomal A site concomitant with the hydrolysis of GTP. The resulting inactive EF1A:GDP complex is recycled to the active GTP form by the guanine-nucleotide exchange factor EF1B, a complex composed of at least two subunits, alpha and gamma. Metazoan EFB1 contain a third subunit, beta. The EF1B gamma subunit contains a GST fold consisting of an N-terminal TRX-fold domain and a C-terminal alpha helical domain. The GST-like domain of EF1Bgamma is believed to mediate the dimerization of the EF1 complex, which in yeast is a dimer of the heterotrimer EF1A:EF1Balpha:EF1Bgamma. In addition to its role in prot
Probab=97.37 E-value=0.00086 Score=44.69 Aligned_cols=60 Identities=30% Similarity=0.428 Sum_probs=46.3
Q ss_pred CCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEe-CCeeeecC
Q psy10373 155 YVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDD-NGYTLSER 215 (215)
Q Consensus 155 ~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~-~G~~l~es 215 (215)
..+.++...+++.+...++++......++..+ +.+.....+||.+++|+++. +|..++||
T Consensus 5 ~~~~~~~~~~~~~~l~~~gi~~~~~~v~~~~~-~~~~~~~~~nP~~~vP~L~~~~g~~l~es 65 (75)
T cd03044 5 TYPGNPRSLKILAAAKYNGLDVEIVDFQPGKE-NKTPEFLKKFPLGKVPAFEGADGFCLFES 65 (75)
T ss_pred cCCCCccHHHHHHHHHHcCCceEEEecccccc-cCCHHHHHhCCCCCCCEEEcCCCCEEeeH
Confidence 33445666778888888888877776665434 67778889999999999996 58899987
No 98
>PRK13972 GSH-dependent disulfide bond oxidoreductase; Provisional
Probab=97.36 E-value=0.00058 Score=54.89 Aligned_cols=62 Identities=29% Similarity=0.610 Sum_probs=50.2
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEe-----CC--eeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDD-----NG--YTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~-----~G--~~l~es 215 (215)
+|..+ .+.+.++..+...++++.++...+...|++.+.+..++||.|+||+|++ +| +.|+||
T Consensus 4 Ly~~~-~~~~~~v~~~L~e~gl~~e~~~v~~~~~~~~~~~~~~iNP~gkVP~L~~~~~~d~g~~~~L~ES 72 (215)
T PRK13972 4 LYFAP-TPNGHKITLFLEEAELDYRLIKVDLGKGGQFRPEFLRISPNNKIPAIVDHSPADGGEPLSLFES 72 (215)
T ss_pred EEECC-CCChHHHHHHHHHcCCCcEEEEecCcccccCCHHHHhhCcCCCCCEEEeCCCCCCCCceeEEcH
Confidence 34444 4567788899999999888877777778888889999999999999986 45 579987
No 99
>cd03184 GST_C_Omega GST_C family, Class Omega subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Class Omega GSTs show little or no GSH-conjugating activity towards standard GST substrates. Instead, they catalyze the GSH dependent reduction of protein disulfides, dehydroascorbate and monomethylarsonate, activities which are more characteristic of glutaredoxins. They contain a conserved cysteine equivalent to the first cysteine in the CXXC motif of glutaredoxins, which is a re
Probab=97.30 E-value=6.3e-05 Score=55.25 Aligned_cols=67 Identities=10% Similarity=0.002 Sum_probs=43.6
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC-CCcEEEe--ccCCCCCCCCHhHHhhCCC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG-VPLNLKH--TDLMKGEHLTPEFLKLNPQ 199 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~-le~~L~~--~~fl~Gd~~T~ADi~l~P~ 199 (215)
+||+.+.|+.+.+ .+.+.+...+. . +... ......+...+. +|..|.+ ++|++|+++|+||+.+.|+
T Consensus 2 ~ra~~r~~~~~~~-~~~~~~~~~~~-----~-~~~~-~~~~~~~~~~l~~le~~L~~~~~~yl~G~~~t~aDi~~~~~ 71 (124)
T cd03184 2 EKAQQKLLLERFS-KVVSAFYKLLG-----A-PSDR-EEKKAELRSALENLEEELTKRGTPFFGGDSPGMVDYMIWPW 71 (124)
T ss_pred hHHHHHHHHHHHh-hhhHHHHHHHh-----c-cccc-hhhHHHHHHHHHHHHHHHHhcCCCCcCCCCccHHHHHhhHH
Confidence 5899999999987 44333322211 1 2112 233445555565 5777764 7999999999999998654
No 100
>cd03046 GST_N_GTT1_like GST_N family, Saccharomyces cerevisiae GTT1-like subfamily; composed of predominantly uncharacterized proteins with similarity to the S. cerevisiae GST protein, GTT1, and the Schizosaccharomyces pombe GST-III. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GTT1, a homodimer, exhibits GST activity with standard substrates and associates with the endoplasmic reticulum. Its expression is induced after diauxic shift and remains high throughout the stationary phase. S. pomb
Probab=97.30 E-value=0.0012 Score=43.70 Aligned_cols=55 Identities=29% Similarity=0.477 Sum_probs=44.2
Q ss_pred chHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 161 PCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 161 ~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
...+++.+....+++......+...|++.+.....++|.+++|++.++|..++||
T Consensus 10 ~~~~v~~~l~~~~i~~~~~~~~~~~~~~~~~~~~~~~p~~~vP~l~~~g~~l~es 64 (76)
T cd03046 10 RSFRILWLLEELGLPYELVLYDRGPGEQAPPEYLAINPLGKVPVLVDGDLVLTES 64 (76)
T ss_pred ChHHHHHHHHHcCCCcEEEEeCCCCCccCCHHHHhcCCCCCCCEEEECCEEEEcH
Confidence 3556777888888887776666555666777888999999999999999999987
No 101
>cd03059 GST_N_SspA GST_N family, Stringent starvation protein A (SspA) subfamily; SspA is a RNA polymerase (RNAP)-associated protein required for the lytic development of phage P1 and for stationary phase-induced acid tolerance of E. coli. It is implicated in survival during nutrient starvation. SspA adopts the GST fold with an N-terminal TRX-fold domain and a C-terminal alpha helical domain, but it does not bind glutathione (GSH) and lacks GST activity. SspA is highly conserved among gram-negative bacteria. Related proteins found in Neisseria (called RegF), Francisella and Vibrio regulate the expression of virulence factors necessary for pathogenesis.
Probab=97.26 E-value=0.0012 Score=43.37 Aligned_cols=59 Identities=29% Similarity=0.441 Sum_probs=45.5
Q ss_pred cCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 154 YYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 154 ~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
+..+.++.+.+++.+....+++......+. ++.+.+...++|.+++|++.++|..++||
T Consensus 4 y~~~~~~~~~~v~~~l~~~gi~~~~~~v~~---~~~~~~~~~~~p~~~vP~l~~~~~~l~es 62 (73)
T cd03059 4 YSGPDDVYSHRVRIVLAEKGVSVEIIDVDP---DNPPEDLAELNPYGTVPTLVDRDLVLYES 62 (73)
T ss_pred EECCCChhHHHHHHHHHHcCCccEEEEcCC---CCCCHHHHhhCCCCCCCEEEECCEEEEcH
Confidence 444456667788888888898877665443 35566778899999999999999999986
No 102
>COG0625 Gst Glutathione S-transferase [Posttranslational modification, protein turnover, chaperones]
Probab=97.22 E-value=0.00096 Score=53.39 Aligned_cols=62 Identities=37% Similarity=0.569 Sum_probs=49.9
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCe-eeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGY-TLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~-~l~es 215 (215)
+++.+.++...++......++++.++...+... ++....+..+||.|+||+|+++|. .|+||
T Consensus 3 L~~~~~sp~~~kv~l~l~e~g~~ye~~~v~~~~-~~~~~~~~~~nP~gkVPvL~~~~~~~l~ES 65 (211)
T COG0625 3 LYGSPTSPYSRKVRLALEEKGLPYEIVLVDLDA-EQKPPDFLALNPLGKVPALVDDDGEVLTES 65 (211)
T ss_pred eecCCCCcchHHHHHHHHHcCCCceEEEeCccc-ccCCHHHHhcCCCCCCCEEeeCCCCeeecH
Confidence 345555666778888888888888887777766 778888889999999999997766 79997
No 103
>cd03076 GST_N_Pi GST_N family, Class Pi subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Class Pi GST is a homodimeric eukaryotic protein. The human GSTP1 is mainly found in erythrocytes, kidney, placenta and fetal liver. It is involved in stress responses and in cellular proliferation pathways as an inhibitor of JNK (c-Jun N-terminal kinase). Following oxidative stress, monomeric GSTP1 dissociates from JNK and dimerizes, losing its ability to bind JNK and causing an increase in JNK activity, thereby promoting apoptosis. GSTP1 is expressed in various tumors and is the predominant GST in a w
Probab=97.18 E-value=0.0008 Score=44.66 Aligned_cols=56 Identities=18% Similarity=0.233 Sum_probs=41.8
Q ss_pred CCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 157 PGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 157 ~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
+.+...++++.+....+++.+....+. ++.+.....++|.+++|+++++|..++||
T Consensus 8 ~~~~~~~~v~~~L~~~~i~~e~~~v~~---~~~~~~~~~~~p~~~vP~l~~~~~~l~es 63 (73)
T cd03076 8 PVRGRAEAIRLLLADQGISWEEERVTY---EEWQESLKPKMLFGQLPCFKDGDLTLVQS 63 (73)
T ss_pred CCcchHHHHHHHHHHcCCCCEEEEecH---HHhhhhhhccCCCCCCCEEEECCEEEEcH
Confidence 334556678888888888766654443 33444566899999999999999999987
No 104
>cd03041 GST_N_2GST_N GST_N family, 2 repeats of the N-terminal domain of soluble GSTs (2 GST_N) subfamily; composed of uncharacterized proteins. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains.
Probab=97.15 E-value=0.0012 Score=44.36 Aligned_cols=62 Identities=26% Similarity=0.386 Sum_probs=46.7
Q ss_pred cccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEe--CCeeeecC
Q psy10373 152 DFYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDD--NGYTLSER 215 (215)
Q Consensus 152 ~l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~--~G~~l~es 215 (215)
.++..+.++.+.+++++...++++.+.... ..+++.+.+...++|.+++|++.+ +|..++||
T Consensus 3 ~Ly~~~~sp~~~kv~~~L~~~gi~y~~~~v--~~~~~~~~~~~~~~p~~~vP~l~~~~~~~~l~es 66 (77)
T cd03041 3 ELYEFEGSPFCRLVREVLTELELDVILYPC--PKGSPKRDKFLEKGGKVQVPYLVDPNTGVQMFES 66 (77)
T ss_pred eEecCCCCchHHHHHHHHHHcCCcEEEEEC--CCChHHHHHHHHhCCCCcccEEEeCCCCeEEEcH
Confidence 345666677788888999999998776543 234545667788999999999975 47889886
No 105
>cd03078 GST_N_Metaxin1_like GST_N family, Metaxin subfamily, Metaxin 1-like proteins; composed of metaxins 1 and 3, and similar proteins including Tom37 from fungi. Mammalian metaxin (or metaxin 1) and the fungal protein Tom37 are components of preprotein import complexes of the mitochondrial outer membrane. Metaxin extends to the cytosol and is anchored to the mitochondrial membrane through its C-terminal domain. In mice, metaxin is required for embryonic development. Like the murine gene, the human metaxin gene is located downstream to the glucocerebrosidase (GBA) pseudogene and is convergently transcribed. Inherited deficiency of GBA results in Gaucher disease, which presents many diverse clinical phenotypes. Alterations in the metaxin gene, in addition to GBA mutations, may be associated with Gaucher disease. Genome sequencing shows that a third metaxin gene also exists in zebrafish, Xenopus, chicken and mammals.
Probab=97.13 E-value=0.00024 Score=47.52 Aligned_cols=47 Identities=17% Similarity=0.193 Sum_probs=34.6
Q ss_pred cceeecccccccccceeeccCCcCCCCcceecC--CCCeeeeeHHHHHHHHHHH
Q psy10373 60 DNITIADCSIVASLSTIECSTSDHMASQTRHPG--NLLVLMFSSRAIIAYLAEQ 111 (215)
Q Consensus 60 ~~l~l~~~~~~~~~~~~~~~~~e~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~ 111 (215)
..|.+++++++- .......++|.||+|+ ++|..+.+|..|++||.++
T Consensus 24 ~~Lr~~~~~~~v-----~~~~n~~~sp~gkLP~l~~~~~~i~d~~~Ii~~L~~~ 72 (73)
T cd03078 24 AYLKFAGAPLKV-----VPSNNPWRSPTGKLPALLTSGTKISGPEKIIEYLRKQ 72 (73)
T ss_pred HHHHcCCCCEEE-----EecCCCCCCCCCccCEEEECCEEecChHHHHHHHHHc
Confidence 344556666644 2222345679999999 8899999999999999864
No 106
>cd03058 GST_N_Tau GST_N family, Class Tau subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The plant-specific class Tau GST subfamily has undergone extensive gene duplication. The Arabidopsis and Oryza genomes contain 28 and 40 Tau GSTs, respectively. They are primarily responsible for herbicide detoxification together with class Phi GSTs, showing class specificity in substrate preference. Tau enzymes are highly efficient in detoxifying diphenylether and aryloxyphenoxypropionate herbicides. In addition, Tau GSTs play important roles in intracellular signalling, biosynthesis of anthocyanin,
Probab=97.12 E-value=0.0021 Score=42.57 Aligned_cols=60 Identities=27% Similarity=0.309 Sum_probs=45.1
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCC-CccceEEeCCeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQ-HTVPTMDDNGYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~-g~lp~l~~~G~~l~es 215 (215)
+++.+.++.+.+++.+....+++......+.. +.+.....++|. +++|++.++|..++||
T Consensus 3 Ly~~~~sp~~~~v~~~l~~~gl~~~~~~~~~~---~~~~~~~~~~p~~~~vP~l~~~~~~l~eS 63 (74)
T cd03058 3 LLGAWASPFVLRVRIALALKGVPYEYVEEDLG---NKSELLLASNPVHKKIPVLLHNGKPICES 63 (74)
T ss_pred EEECCCCchHHHHHHHHHHcCCCCEEEEeCcc---cCCHHHHHhCCCCCCCCEEEECCEEeehH
Confidence 44555567788888888999987766544332 345567789995 9999999999999987
No 107
>cd03039 GST_N_Sigma_like GST_N family, Class Sigma_like; composed of GSTs belonging to class Sigma and similar proteins, including GSTs from class Mu, Pi and Alpha. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Vertebrate class Sigma GSTs are characterized as GSH-dependent hematopoietic prostaglandin (PG) D synthases and are responsible for the production of PGD2 by catalyzing the isomerization of PGH2. The functions of PGD2 include the maintenance of body temperature, inhibition of platelet aggregation, bronchoconstriction, vasodilation and mediation of allergy and inflammation. Other class Sigma
Probab=97.07 E-value=0.0011 Score=43.63 Aligned_cols=57 Identities=14% Similarity=0.146 Sum_probs=42.0
Q ss_pred CCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 157 PGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 157 ~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
+.+....+++.+...++++......+...++ +.....++|.+++|++.++|..++||
T Consensus 7 ~~~~~~~~v~~~l~~~gi~~e~~~~~~~~~~--~~~~~~~~p~~~vP~L~~~~~~l~es 63 (72)
T cd03039 7 NIRGRGEPIRLLLADAGVEYEDVRITYEEWP--ELDLKPTLPFGQLPVLEIDGKKLTQS 63 (72)
T ss_pred cCcchHHHHHHHHHHCCCCcEEEEeCHHHhh--hhhhccCCcCCCCCEEEECCEEEEec
Confidence 3345566788889999988776655443222 23356799999999999999999997
No 108
>PRK11752 putative S-transferase; Provisional
Probab=97.06 E-value=0.0016 Score=54.29 Aligned_cols=64 Identities=16% Similarity=0.394 Sum_probs=50.1
Q ss_pred ccccCCCCCCchHHHHHHHHHc------CCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeC----CeeeecC
Q psy10373 151 IDFYYVPGSAPCRAVQLAAAQI------GVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDN----GYTLSER 215 (215)
Q Consensus 151 ~~l~~~~~~~~~~~~~~~~~~l------~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~----G~~l~es 215 (215)
+.++... ++.+.++..++..+ +++.++...++..+++.+.+..++||.|+||+|+++ |+.|+||
T Consensus 45 ~~Ly~~~-s~~~~rV~i~L~e~~~~~~~gl~ye~~~v~~~~~~~~~~e~~~iNP~GkVP~Lv~~dg~~~~~L~ES 118 (264)
T PRK11752 45 LQLYSLG-TPNGQKVTIMLEELLALGVKGAEYDAWLIRIGEGDQFSSGFVEINPNSKIPALLDRSGNPPIRVFES 118 (264)
T ss_pred eEEecCC-CCchHHHHHHHHHHHhccCCCCceEEEEecCccccccCHHHHhhCCCCCCCEEEeCCCCCCeEEEcH
Confidence 3445543 56677778877775 677777777888888899999999999999999864 4789987
No 109
>PF14497 GST_C_3: Glutathione S-transferase, C-terminal domain; PDB: 3AY8_A 2UZ8_B 1V2A_C 2HNL_A 2YV9_B 3H1N_A 3FR6_A 1Q4J_B 1PA3_B 1OKT_B ....
Probab=97.00 E-value=4e-05 Score=54.02 Aligned_cols=66 Identities=12% Similarity=0.152 Sum_probs=36.5
Q ss_pred CHHHHHHHHHHHhhhccccchhcccceeecc-ccCCCCCCchHHHHHHHHHcC-CCcEEEecc--CCCCCCCCHhHHhh
Q psy10373 122 DPKARGIVNQRLYFDIGTLYQRFADYFMTID-FYYVPGSAPCRAVQLAAAQIG-VPLNLKHTD--LMKGEHLTPEFLKL 196 (215)
Q Consensus 122 d~~era~v~~wl~~~~~~l~~~~~~~~~~~~-l~~~~~~~~~~~~~~~~~~l~-le~~L~~~~--fl~Gd~~T~ADi~l 196 (215)
++..++.+++|+.|.. . ...... ..... .........+...++ ++.+|+.+. |++|+++|.||+++
T Consensus 2 ~~~~~a~i~~W~~f~~-----~---~~~~~~~~~~~~-~~~~~~~~~~~~~l~~l~~~L~~~~~~~l~G~~~T~AD~~v 71 (99)
T PF14497_consen 2 DPYWRALIDRWLDFSV-----A---FRRRKARLEKDE-ASGDFSREELPKALKILEKHLAERGGDFLVGDKPTLADIAV 71 (99)
T ss_dssp --TTHHHHHHHHH-GH-----C---CHCCHCHHHHHC-CHHHHHHHHHHHHHHHHHHHHHHTSSSSSSSSS--HHHHHH
T ss_pred chHHHHHHHHHHhccc-----h---hhhHHHHHHHhh-hhHHhhHHHHHHHHHHHHHHHHcCCCeeecCCCCCHHHHHH
Confidence 4567899999999771 0 000000 00001 111223344555555 588888877 99999999999998
No 110
>cd03060 GST_N_Omega_like GST_N family, Omega-like subfamily; composed of uncharacterized proteins with similarity to class Omega GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Class Omega GSTs show little or no GSH-conjugating activity towards standard GST substrates. Instead, they catalyze the GSH dependent reduction of protein disulfides, dehydroascorbate and monomethylarsonate, activities which are more characteristic of glutaredoxins. Like Omega enzymes, proteins in this subfamily contain a conserved cysteine equivalent to the first cysteine in the CXXC motif of glutaredoxins, which is a r
Probab=97.00 E-value=0.0033 Score=41.26 Aligned_cols=59 Identities=22% Similarity=0.358 Sum_probs=44.1
Q ss_pred cCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeC-CeeeecC
Q psy10373 154 YYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDN-GYTLSER 215 (215)
Q Consensus 154 ~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~-G~~l~es 215 (215)
+....++.+.+++.+...++++.+....+.. +.+.....+||.+++|++.++ |..++||
T Consensus 4 y~~~~~p~~~rv~~~L~~~gl~~e~~~v~~~---~~~~~~~~~np~~~vP~L~~~~g~~l~eS 63 (71)
T cd03060 4 YSFRRCPYAMRARMALLLAGITVELREVELK---NKPAEMLAASPKGTVPVLVLGNGTVIEES 63 (71)
T ss_pred EecCCCcHHHHHHHHHHHcCCCcEEEEeCCC---CCCHHHHHHCCCCCCCEEEECCCcEEecH
Confidence 3445567777888888989987776655543 224566789999999999875 9999987
No 111
>KOG0868|consensus
Probab=96.99 E-value=0.00093 Score=51.94 Aligned_cols=62 Identities=32% Similarity=0.449 Sum_probs=51.8
Q ss_pred cCCCCCCchHHHHHHHHHcCCCcEEEeccCCCC-CCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 154 YYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKG-EHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 154 ~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~G-d~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
|..-.+...++++.+.+..++|.+......+.+ ++.+..+..+||+++||+++.+|..|+||
T Consensus 9 YSYWrSSCswRVRiALaLK~iDYey~PvnLlk~~~q~~~ef~~iNPm~kVP~L~i~g~tl~eS 71 (217)
T KOG0868|consen 9 YSYWRSSCSWRVRIALALKGIDYEYKPVNLLKEEDQSDSEFKEINPMEKVPTLVIDGLTLTES 71 (217)
T ss_pred hhhhcccchHHHHHHHHHcCCCcceeehhhhcchhhhhhHHhhcCchhhCCeEEECCEEeehH
Confidence 333345567788999999999999988888887 66777778899999999999999999997
No 112
>PRK10542 glutathionine S-transferase; Provisional
Probab=96.98 E-value=0.0015 Score=51.65 Aligned_cols=55 Identities=27% Similarity=0.436 Sum_probs=44.0
Q ss_pred chHHHHHHHHHcCCCcEEEeccCCCCC-CCCHhHHhhCCCCccceEE-eCCeeeecC
Q psy10373 161 PCRAVQLAAAQIGVPLNLKHTDLMKGE-HLTPEFLKLNPQHTVPTMD-DNGYTLSER 215 (215)
Q Consensus 161 ~~~~~~~~~~~l~le~~L~~~~fl~Gd-~~T~ADi~l~P~g~lp~l~-~~G~~l~es 215 (215)
...++..+...++++.+....+...|+ +.+.+..++||.|+||+++ ++|+.|+||
T Consensus 10 ~~~~~~~~L~~~gi~~e~~~v~~~~~~~~~~~~~~~~nP~g~vPvL~~~~g~~l~eS 66 (201)
T PRK10542 10 CSLASHITLRESGLDFTLVSVDLAKKRLENGDDYLAINPKGQVPALLLDDGTLLTEG 66 (201)
T ss_pred HHHHHHHHHHHcCCCceEEEeecccccccCChHHHHhCcCCCCCeEEeCCCcEeecH
Confidence 455677788888998777766666554 4567889999999999997 688999997
No 113
>cd03075 GST_N_Mu GST_N family, Class Mu subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The class Mu subfamily is composed of eukaryotic GSTs. In rats, at least six distinct class Mu subunits have been identified, with homologous genes in humans for five of these subunits. Class Mu GSTs can form homodimers and heterodimers, giving a large number of possible isoenzymes that can be formed, all with overlapping activities but different substrate specificities. They are the most abundant GSTs in human liver, skeletal muscle and brain, and are believed to provide protection against diseases inc
Probab=96.96 E-value=0.0029 Score=43.05 Aligned_cols=56 Identities=14% Similarity=0.169 Sum_probs=40.6
Q ss_pred CchHHHHHHHHHcCCCcEEEeccCCCCCCCC-HhHHhh-----CCCCccceEEeCCeeeecC
Q psy10373 160 APCRAVQLAAAQIGVPLNLKHTDLMKGEHLT-PEFLKL-----NPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 160 ~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T-~ADi~l-----~P~g~lp~l~~~G~~l~es 215 (215)
....+++.+...++++......++..|++.. ..+.+. .|.++||+++++|+.++||
T Consensus 10 ~~~~~~~~~l~~~gi~~e~~~v~~~~~~~~~~~~~~~~~~~~~~P~g~vP~L~~~g~~l~ES 71 (82)
T cd03075 10 GLAQPIRLLLEYTGEKYEEKRYELGDAPDYDRSQWLNEKFKLGLDFPNLPYYIDGDVKLTQS 71 (82)
T ss_pred cccHHHHHHHHHcCCCcEEEEeccCCccccchHhhhccchhcCCcCCCCCEEEECCEEEeeh
Confidence 4455677888888887777666766666542 233322 2999999999999999997
No 114
>cd03043 GST_N_1 GST_N family, unknown subfamily 1; composed of uncharacterized proteins, predominantly from bacteria, with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains.
Probab=96.92 E-value=0.0048 Score=40.92 Aligned_cols=57 Identities=19% Similarity=0.250 Sum_probs=44.1
Q ss_pred CCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 158 GSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 158 ~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
.++...++..+....+++......++..++ .+.....++|.+++|+++++|..++||
T Consensus 9 ~s~~s~~v~~~L~~~gl~~e~~~v~~~~~~-~~~~~~~~nP~g~vP~L~~~g~~l~eS 65 (73)
T cd03043 9 YSSWSLRPWLLLKAAGIPFEEILVPLYTPD-TRARILEFSPTGKVPVLVDGGIVVWDS 65 (73)
T ss_pred CCHHHHHHHHHHHHcCCCCEEEEeCCCCcc-ccHHHHhhCCCCcCCEEEECCEEEEcH
Confidence 355567788888889988777655554433 455677899999999999999999987
No 115
>KOG3027|consensus
Probab=96.92 E-value=0.00032 Score=55.60 Aligned_cols=137 Identities=8% Similarity=0.028 Sum_probs=83.0
Q ss_pred cceeecccccccccceeeccCCcCCCCcceecC--CCCeeeeeHHHHHHHHHHHhCCCCCCCC-CCHHHHHHHHHHHhhh
Q psy10373 60 DNITIADCSIVASLSTIECSTSDHMASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKDDSLYP-KDPKARGIVNQRLYFD 136 (215)
Q Consensus 60 ~~l~l~~~~~~~~~~~~~~~~~e~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~~~L~p-~d~~era~v~~wl~~~ 136 (215)
-.|..+.+++.-. -..+.|+++|-|+||. -|.++++|=.+|..++..+-- .|.. .+..+++.++..++..
T Consensus 42 tfLrMcnLPf~v~----~~~NaefmSP~G~vPllr~g~~~~aef~pIV~fVeak~~---~l~s~lsE~qkadmra~vslV 114 (257)
T KOG3027|consen 42 TFLRMCNLPFNVR----QRANAEFMSPGGKVPLLRIGKTLFAEFEPIVDFVEAKGV---TLTSWLSEDQKADMRAYVSLV 114 (257)
T ss_pred HHHHHcCCCceee----ecCCccccCCCCCCceeeecchhhhhhhHHHHHHHHhcc---chhhhhhhHHHHHHHHHHHHH
Confidence 3444455555332 3346789999999999 678899999999999987632 2433 3667889888887776
Q ss_pred ccccchh--------------cccceeec----------------------cccCCCCCCchHHHHHHHHHcC-CCcEEE
Q psy10373 137 IGTLYQR--------------FADYFMTI----------------------DFYYVPGSAPCRAVQLAAAQIG-VPLNLK 179 (215)
Q Consensus 137 ~~~l~~~--------------~~~~~~~~----------------------~l~~~~~~~~~~~~~~~~~~l~-le~~L~ 179 (215)
++.+... +...++.. ..++............+..... ++.+|+
T Consensus 115 en~~t~aEl~~s~~de~ty~~vT~~R~gs~ypWPLs~i~~f~Krr~~~r~lk~~~W~~~~~DqVie~vdkc~~aLsa~L~ 194 (257)
T KOG3027|consen 115 ENLLTTAELYVSWNDEETYDEVTALRYGSVYPWPLSHILPFVKRRKALRELKVYDWDDKTMDQVIEQVDKCCRALSAQLG 194 (257)
T ss_pred HHHHHHHHHHHHhccHHHHHHHhhhccCCCCCCcHHHHHHHHHHHHHHHHHhhcCcccccHHHHHHHHHHHHHHHHHHhc
Confidence 6554321 11111110 0011110000111122233333 567788
Q ss_pred eccCCCCCCCCHhHHhhCCCCccceE
Q psy10373 180 HTDLMKGEHLTPEFLKLNPQHTVPTM 205 (215)
Q Consensus 180 ~~~fl~Gd~~T~ADi~l~P~g~lp~l 205 (215)
.++|+.|+++|..|.-+ +|++.++
T Consensus 195 ~q~yf~g~~P~elDAlv--FGHlyti 218 (257)
T KOG3027|consen 195 SQPYFTGDQPTELDALV--FGHLYTI 218 (257)
T ss_pred CCCccCCCCccHHHHHH--HhhhHHh
Confidence 89999999999999877 7766554
No 116
>TIGR01262 maiA maleylacetoacetate isomerase. Maleylacetoacetate isomerase is an enzyme of tyrosine and phenylalanine catabolism. It requires glutathione and belongs by homology to the zeta family of glutathione S-transferases. The enzyme (EC 5.2.1.2) is described as active also on maleylpyruvate, and the example from a Ralstonia sp. catabolic plasmid is described as a maleylpyruvate isomerase involved in gentisate catabolism.
Probab=96.88 E-value=0.0035 Score=49.92 Aligned_cols=62 Identities=37% Similarity=0.533 Sum_probs=47.8
Q ss_pred cCCCCCCchHHHHHHHHHcCCCcEEEeccCC-CCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 154 YYVPGSAPCRAVQLAAAQIGVPLNLKHTDLM-KGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 154 ~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl-~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
++...++.+++++.+...++++..+...+.. .|++.+.+...+||.|++|+|+++|..|+||
T Consensus 3 y~~~~s~~~~~v~~~l~~~gi~~~~~~v~~~~~~~~~~~~~~~~nP~g~vP~L~~~g~~l~ES 65 (210)
T TIGR01262 3 YSYWRSSCSYRVRIALALKGIDYEYVPVNLLRDGEQRSPEFLALNPQGLVPTLDIDGEVLTQS 65 (210)
T ss_pred ccCCCCCchHHHHHHHHHCCCCceEEecccccccccCChhhhhcCCCCcCCEEEECCEEeecH
Confidence 3334456677888888999988777655543 3456666778899999999999999999997
No 117
>KOG4244|consensus
Probab=96.85 E-value=0.00092 Score=55.00 Aligned_cols=139 Identities=12% Similarity=0.068 Sum_probs=77.7
Q ss_pred ccccceeecccccccccceeeccCCcCCCCcceecC--CCCeeeeeHHHHHHHHHHHhCCCCCCCCCCHHHHHHHHHHHh
Q psy10373 57 VAGDNITIADCSIVASLSTIECSTSDHMASQTRHPG--NLLVLMFSSRAIIAYLAEQYGKDDSLYPKDPKARGIVNQRLY 134 (215)
Q Consensus 57 ~~~~~l~l~~~~~~~~~~~~~~~~~e~~~P~GkVPv--ddg~~L~ES~AI~~YL~~~~~~~~~L~p~d~~era~v~~wl~ 134 (215)
|+--.+...+++++- + +.... .+++.|++|- -+|..+.+|.-|..+|.+.++-... +| +.+||+-+....
T Consensus 66 KvEt~lR~~~IpYE~-~---~~~~~-~rSr~G~lPFIELNGe~iaDS~~I~~~L~~hf~~~~~-L~--~e~~a~s~Al~r 137 (281)
T KOG4244|consen 66 KVETFLRAYDIPYEI-V---DCSLK-RRSRNGTLPFIELNGEHIADSDLIEDRLRKHFKIPDD-LS--AEQRAQSRALSR 137 (281)
T ss_pred HHHHHHHHhCCCcee-c---cccce-eeccCCCcceEEeCCeeccccHHHHHHHHHHcCCCCC-CC--HHHHHHHHHHHH
Confidence 444555666666544 1 22222 5789999999 7899999999999999999875432 33 334444333333
Q ss_pred hhccccchhccccee------------------------ecc----cc--------CC-CCCCchHHHHHHHHHcC-CCc
Q psy10373 135 FDIGTLYQRFADYFM------------------------TID----FY--------YV-PGSAPCRAVQLAAAQIG-VPL 176 (215)
Q Consensus 135 ~~~~~l~~~~~~~~~------------------------~~~----l~--------~~-~~~~~~~~~~~~~~~l~-le~ 176 (215)
..++++.-.+..+.. +.. +. +. ..-........+.+-+. ++.
T Consensus 138 m~dnhL~~~l~y~k~~~~~~~~~~~~~~~l~~~l~~~l~~~~~~~~f~~kv~~r~~g~IG~f~~~Ei~ell~rDlr~i~~ 217 (281)
T KOG4244|consen 138 MADNHLFWILLYYKGADDAWLNTDRKLIGLPGFLFPLLLPLFWKAIFGKKVYKRSTGAIGDFESAEIDELLHRDLRAISD 217 (281)
T ss_pred HHHHHHHHHHHHhhhcchHHHHHHHhccCccccchHHHHHHHHHHHHHHHHHHHhhccccCcCHHHHHHHHHHHHHHHHH
Confidence 333222211100000 000 00 00 00000111223344444 578
Q ss_pred EEEeccCCCCCCCCHhHHhhCCCCccceE
Q psy10373 177 NLKHTDLMKGEHLTPEFLKLNPQHTVPTM 205 (215)
Q Consensus 177 ~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l 205 (215)
.|++++|+-||++|.+|.++ .|++..+
T Consensus 218 ~Lg~KkflfGdkit~~Datv--FgqLa~v 244 (281)
T KOG4244|consen 218 YLGDKKFLFGDKITPADATV--FGQLAQV 244 (281)
T ss_pred HhCCCccccCCCCCcceeee--hhhhhhe
Confidence 88899999999999999998 6655443
No 118
>PF13417 GST_N_3: Glutathione S-transferase, N-terminal domain; PDB: 3ERG_B 3IBH_A 3ERF_A 3UBL_A 3UBK_A 3IR4_A 3M8N_B 2R4V_A 2PER_A 2R5G_A ....
Probab=96.76 E-value=0.0023 Score=42.61 Aligned_cols=58 Identities=41% Similarity=0.653 Sum_probs=45.4
Q ss_pred CCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 155 YVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 155 ~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
+...++.+.+++.+....+++.+....+. ++ .......++|.+++|+++++|..++||
T Consensus 3 ~~~~Sp~~~kv~~~l~~~~i~~~~~~v~~--~~-~~~~~~~~~p~~~vPvL~~~g~~l~dS 60 (75)
T PF13417_consen 3 GFPGSPYSQKVRLALEEKGIPYELVPVDP--EE-KRPEFLKLNPKGKVPVLVDDGEVLTDS 60 (75)
T ss_dssp EETTSHHHHHHHHHHHHHTEEEEEEEEBT--TS-TSHHHHHHSTTSBSSEEEETTEEEESH
T ss_pred CcCCChHHHHHHHHHHHcCCeEEEeccCc--cc-chhHHHhhcccccceEEEECCEEEeCH
Confidence 34456778888899999998777665543 23 266778899999999999999999986
No 119
>cd03049 GST_N_3 GST_N family, unknown subfamily 3; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains.
Probab=96.59 E-value=0.01 Score=39.03 Aligned_cols=60 Identities=27% Similarity=0.410 Sum_probs=42.6
Q ss_pred ccCCCCCCchHHHHHHHHH--cCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEE-eCCeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQ--IGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMD-DNGYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~--l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~-~~G~~l~es 215 (215)
++....++.+.+++.+... ++++......+. .+.......++|.+++|+++ ++|..++||
T Consensus 3 Ly~~~~s~~~~~~~~~l~~~~~~i~~~~~~~~~---~~~~~~~~~~~p~~~vP~l~~~~g~~l~es 65 (73)
T cd03049 3 LLYSPTSPYVRKVRVAAHETGLGDDVELVLVNP---WSDDESLLAVNPLGKIPALVLDDGEALFDS 65 (73)
T ss_pred EecCCCCcHHHHHHHHHHHhCCCCCcEEEEcCc---ccCChHHHHhCCCCCCCEEEECCCCEEECH
Confidence 3444556667777888888 667666554432 23455677899999999997 578899887
No 120
>PLN02378 glutathione S-transferase DHAR1
Probab=96.50 E-value=0.0077 Score=48.43 Aligned_cols=55 Identities=15% Similarity=0.239 Sum_probs=45.1
Q ss_pred CCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 158 GSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 158 ~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
.++.+.++..+...++++.++...+... .+..+..+||.|+||+++++|..|+||
T Consensus 19 ~~p~~~rv~~~L~e~gl~~e~~~v~~~~---~~~~~l~inP~G~VPvL~~~~~~l~ES 73 (213)
T PLN02378 19 DCPFSQRALLTLEEKSLTYKIHLINLSD---KPQWFLDISPQGKVPVLKIDDKWVTDS 73 (213)
T ss_pred CCcchHHHHHHHHHcCCCCeEEEeCccc---CCHHHHHhCCCCCCCEEEECCEEecCH
Confidence 3566778888889999988877666643 345789999999999999999999997
No 121
>cd03061 GST_N_CLIC GST_N family, Chloride Intracellular Channel (CLIC) subfamily; composed of CLIC1-5, p64, parchorin and similar proteins. They are auto-inserting, self-assembling intracellular anion channels involved in a wide variety of functions including regulated secretion, cell division and apoptosis. They can exist in both water-soluble and membrane-bound states, and are found in various vesicles and membranes. Biochemical studies of the C. elegans homolog, EXC-4, show that the membrane localization domain is present in the N-terminal part of the protein. The structure of soluble human CLIC1 reveals that it is monomeric and it adopts a fold similar to GSTs, containing an N-terminal domain with a TRX fold and a C-terminal alpha helical domain. Upon oxidation, the N-terminal domain of CLIC1 undergoes a structural change to form a non-covalent dimer stabilized by the formation of an intramolecular disulfide bond between two cysteines that are far apart in the reduced form. The CLI
Probab=96.48 E-value=0.011 Score=41.19 Aligned_cols=54 Identities=19% Similarity=0.297 Sum_probs=42.8
Q ss_pred CCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 159 SAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 159 ~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
++.+++++.++..++++.++...+- ++.......+||.|++|++.++|..++||
T Consensus 22 cpf~~rvrl~L~eKgi~ye~~~vd~---~~~p~~~~~~nP~g~vPvL~~~~~~i~eS 75 (91)
T cd03061 22 CPFCQRLFMVLWLKGVVFNVTTVDM---KRKPEDLKDLAPGTQPPFLLYNGEVKTDN 75 (91)
T ss_pred ChhHHHHHHHHHHCCCceEEEEeCC---CCCCHHHHHhCCCCCCCEEEECCEEecCH
Confidence 4556788888899999887765543 23446788999999999999999999986
No 122
>PRK10357 putative glutathione S-transferase; Provisional
Probab=96.39 E-value=0.0077 Score=47.69 Aligned_cols=60 Identities=13% Similarity=0.200 Sum_probs=44.4
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEE-eCCeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMD-DNGYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~-~~G~~l~es 215 (215)
+++...++.+++++.+...++++......+...|.. ....+||.|++|+++ ++|..|+||
T Consensus 3 Ly~~~~s~~~~~v~~~L~~~gv~ye~~~~~~~~~~~---~~~~~nP~g~vP~L~~~~g~~l~eS 63 (202)
T PRK10357 3 LIGSYTSPFVRKISILLLEKGITFEFVNELPYNADN---GVAQYNPLGKVPALVTEEGECWFDS 63 (202)
T ss_pred eecCCCCchHHHHHHHHHHcCCCCeEEecCCCCCch---hhhhcCCccCCCeEEeCCCCeeecH
Confidence 455555677778888899999987766555444433 334579999999997 688999987
No 123
>PF13409 GST_N_2: Glutathione S-transferase, N-terminal domain; PDB: 3C8E_B 3M1G_A 3R3E_A 3O3T_A 1RK4_A 1K0O_B 1K0N_A 3QR6_A 3SWL_A 3TGZ_B ....
Probab=96.39 E-value=0.0082 Score=39.45 Aligned_cols=56 Identities=36% Similarity=0.610 Sum_probs=42.2
Q ss_pred CchHHHHHHHHHcCCCcEEEec-cCCCCCCCCHhHHhhCCCCccceEEe-CCeeeecC
Q psy10373 160 APCRAVQLAAAQIGVPLNLKHT-DLMKGEHLTPEFLKLNPQHTVPTMDD-NGYTLSER 215 (215)
Q Consensus 160 ~~~~~~~~~~~~l~le~~L~~~-~fl~Gd~~T~ADi~l~P~g~lp~l~~-~G~~l~es 215 (215)
+...++..+...++++..+... ..-.+.+.+.....++|.++||+|.+ .|..++||
T Consensus 3 P~a~Rv~i~l~~~gl~~~~~~v~~~~~~~~~~~~~~~~~p~~~VP~L~~~~g~vi~eS 60 (70)
T PF13409_consen 3 PFAHRVRIALEEKGLPYEIKVVPLIPKGEQKPPEFLALNPRGKVPVLVDPDGTVINES 60 (70)
T ss_dssp HHHHHHHHHHHHHTGTCEEEEEETTTTBCTTCHBHHHHSTT-SSSEEEETTTEEEESH
T ss_pred hHhHHHHHHHHHhCCCCEEEEEeeecCccccChhhhccCcCeEEEEEEECCCCEeeCH
Confidence 4456778888999987776554 23345666778899999999999996 78888886
No 124
>cd03192 GST_C_Sigma_like GST_C family, Class Sigma_like; composed of GSTs belonging to class Sigma and similar proteins, including GSTs from class Mu, Pi, and Alpha. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Vertebrate class Sigma GSTs are characterized as GSH-dependent hematopoietic prostaglandin (PG) D synthases and are responsible for the production of PGD2 by catalyzing the isomerization of PGH2. The functions of PGD2 include the maintenance of body temperature, inhibition
Probab=96.29 E-value=0.00018 Score=50.85 Aligned_cols=72 Identities=18% Similarity=0.075 Sum_probs=41.9
Q ss_pred HHHHHHHHHhhhccccchhcccceeeccccCCC--CCCchHHHHHHHHHcC-CCcEEEe--ccCCCCCCCCHhHHhhCCC
Q psy10373 125 ARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVP--GSAPCRAVQLAAAQIG-VPLNLKH--TDLMKGEHLTPEFLKLNPQ 199 (215)
Q Consensus 125 era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~--~~~~~~~~~~~~~~l~-le~~L~~--~~fl~Gd~~T~ADi~l~P~ 199 (215)
++++|++|+... +.+...+...++... +.+ ..........+...++ +|.+|.+ ++|++|+++|+||+.+.+.
T Consensus 2 e~~~v~~~~~~~-~d~~~~~~~~~~~~~--~~~~~~~~~~~~~~~~~~~l~~le~~l~~~~~~~~~G~~~s~aDi~l~~~ 78 (104)
T cd03192 2 EAARVDALVDTI-ADLRAEFAKYFYEKD--GEEKKEKKKEFLKEAIPKYLKKLEKILKENGGGYLVGDKLTWADLVVFDV 78 (104)
T ss_pred hHHHHHHHHHHH-HHHHHHHHHHhhcCc--hHHHHHHHHHHHHHhhHHHHHHHHHHHHHcCCCeeeCCCccHHHHHHHHH
Confidence 578888998874 445444444333210 000 0001112233444555 5777766 7899999999999998543
No 125
>cd03055 GST_N_Omega GST_N family, Class Omega subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. Class Omega GSTs show little or no GSH-conjugating activity towards standard GST substrates. Instead, they catalyze the GSH dependent reduction of protein disulfides, dehydroascorbate and monomethylarsonate, activities which are more characteristic of glutaredoxins. They contain a conserved cysteine equivalent to the first cysteine in the CXXC motif of glutaredoxins, which is a redox active residue capable of reducing GSH mixed disulfides in a monothiol mechanism. Polymorphisms of the class Omega
Probab=96.26 E-value=0.02 Score=39.46 Aligned_cols=61 Identities=23% Similarity=0.336 Sum_probs=45.8
Q ss_pred cccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeC-CeeeecC
Q psy10373 152 DFYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDN-GYTLSER 215 (215)
Q Consensus 152 ~l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~-G~~l~es 215 (215)
.++..+.++.+.+++.+....+++..+...+... .......++|.+++|++..+ |..++||
T Consensus 20 ~Ly~~~~sp~~~kv~~~L~~~gl~~~~~~v~~~~---~~~~~~~~np~~~vPvL~~~~g~~l~eS 81 (89)
T cd03055 20 RLYSMRFCPYAQRARLVLAAKNIPHEVININLKD---KPDWFLEKNPQGKVPALEIDEGKVVYES 81 (89)
T ss_pred EEEeCCCCchHHHHHHHHHHcCCCCeEEEeCCCC---CcHHHHhhCCCCCcCEEEECCCCEEECH
Confidence 4455566777888888999999887776555422 23446789999999999976 8899987
No 126
>PF13410 GST_C_2: Glutathione S-transferase, C-terminal domain; PDB: 4DEJ_H 3IC8_A 2JL4_A 2V6K_B 3CBU_B 1JLW_B 3F6D_B 3G7I_A 3F63_A 3G7J_B ....
Probab=96.25 E-value=0.00043 Score=45.17 Aligned_cols=34 Identities=15% Similarity=0.181 Sum_probs=24.9
Q ss_pred HHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 165 VQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 165 ~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
...+.+.++ +|.+|.+++|+.|+++|++|+.+.|
T Consensus 8 ~~~~~~~l~~le~~L~~~~fl~G~~~s~aD~~l~~ 42 (69)
T PF13410_consen 8 RAQLEAALDALEDHLADGPFLFGDRPSLADIALAP 42 (69)
T ss_dssp HHHHHHHHHHHHHHHTTSSBTTBSS--HHHHHHHH
T ss_pred HHHHHHHHHHHHHHHhhCCCCCCCCCCHHHHHHHH
Confidence 344555555 6888888899999999999999944
No 127
>cd03193 GST_C_Metaxin GST_C family, Metaxin subfamily; composed of metaxins and related proteins. Metaxin 1 is a component of a preprotein import complex of the mitochondrial outer membrane. It extends to the cytosol and is anchored to the mitochondrial membrane through its C-terminal domain. In mice, metaxin is required for embryonic development. In humans, alterations in the metaxin gene may be associated with Gaucher disease. Metaxin 2 binds to metaxin 1 and may also play a role in protein translocation into the mitochondria. Genome sequencing shows that a third metaxin gene also exists in zebrafish, Xenopus, chicken, and mammals. Sequence analysis suggests that all three metaxins share a common ancestry and that they possess similarity to GSTs. Also included in the subfamily are uncharacterized proteins with similarity to metaxins, including a novel GST from Rhodococcus with toluene o-monooxygenase and glutamylcysteine synthetase activities. Other members are the cadmium-inducible
Probab=96.20 E-value=0.0013 Score=45.16 Aligned_cols=33 Identities=15% Similarity=0.073 Sum_probs=26.2
Q ss_pred HHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 166 QLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 166 ~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
....+.++ +|..|++++|++|+++|+||+.+.|
T Consensus 22 ~~~~~~l~~le~~L~~~~yl~Gd~~t~aDi~l~~ 55 (88)
T cd03193 22 SLAKKDLKALSDLLGDKKFFFGDKPTSLDATVFG 55 (88)
T ss_pred HHHHHHHHHHHHHhCCCCccCCCCCCHHHHHHHH
Confidence 34455555 5888888899999999999999844
No 128
>cd03038 GST_N_etherase_LigE GST_N family, Beta etherase LigE subfamily; composed of proteins similar to Sphingomonas paucimobilis beta etherase, LigE, a GST-like protein that catalyzes the cleavage of the beta-aryl ether linkages present in low-moleculer weight lignins using GSH as the hydrogen donor. This reaction is an essential step in the degradation of lignin, a complex phenolic polymer that is the most abundant aromatic material in the biosphere. The beta etherase activity of LigE is enantioselective and it complements the activity of the other GST family beta etherase, LigF.
Probab=96.11 E-value=0.014 Score=39.53 Aligned_cols=56 Identities=18% Similarity=0.158 Sum_probs=40.8
Q ss_pred CCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeC-CeeeecC
Q psy10373 159 SAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDN-GYTLSER 215 (215)
Q Consensus 159 ~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~-G~~l~es 215 (215)
++.+.+++.+....+++.+....+...+++... ++.++|.+++|++.++ |..++||
T Consensus 16 Sp~~~kv~~~L~~~~i~~~~~~~~~~~~~~~~~-~~~~~p~~~vP~L~~~~~~~l~eS 72 (84)
T cd03038 16 SPNVWKTRLALNHKGLEYKTVPVEFPDIPPILG-ELTSGGFYTVPVIVDGSGEVIGDS 72 (84)
T ss_pred CChhHHHHHHHHhCCCCCeEEEecCCCcccccc-cccCCCCceeCeEEECCCCEEeCH
Confidence 455677888888888877766555443343332 3378999999999988 8899887
No 129
>TIGR00862 O-ClC intracellular chloride channel protein. These proteins are thought to function in the regulation of the membrane potential and in transepithelial ion absorption and secretion in the kidney.
Probab=95.95 E-value=0.02 Score=47.08 Aligned_cols=55 Identities=16% Similarity=0.190 Sum_probs=45.2
Q ss_pred CCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 158 GSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 158 ~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
.++.++++..+....+++.++...+... .+..+..+||.|++|++.++|..|+||
T Consensus 18 ~cp~~~rv~i~L~ekgi~~e~~~vd~~~---~~~~fl~inP~g~vPvL~~~g~~l~ES 72 (236)
T TIGR00862 18 NCPFSQRLFMILWLKGVVFNVTTVDLKR---KPEDLQNLAPGTHPPFLTYNTEVKTDV 72 (236)
T ss_pred CCHhHHHHHHHHHHcCCCcEEEEECCCC---CCHHHHHHCcCCCCCEEEECCEEeecH
Confidence 3456778888888888988887766653 367899999999999999999999987
No 130
>cd03194 GST_C_3 GST_C family, unknown subfamily 3; composed of uncharacterized proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=95.92 E-value=0.0019 Score=46.77 Aligned_cols=22 Identities=9% Similarity=0.175 Sum_probs=17.5
Q ss_pred cEEEeccCCCCCCCCHhHHhhCC
Q psy10373 176 LNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 176 ~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
.++.+++|++|| +|+||+.+.+
T Consensus 58 ~~~~~~~yl~Gd-~T~ADi~l~~ 79 (114)
T cd03194 58 ARFQGGPFLFGD-FSIADAFFAP 79 (114)
T ss_pred HHcCCCCCCCCC-CcHHHHHHHH
Confidence 334567899999 9999999854
No 131
>cd03198 GST_C_CLIC GST_C family, Chloride Intracellular Channel (CLIC) subfamily; composed of CLIC1-5, p64, parchorin, and similar proteins. They are auto-inserting, self-assembling intracellular anion channels involved in a wide variety of functions including regulated secretion, cell division, and apoptosis. They can exist in both water-soluble and membrane-bound states and are found in various vesicles and membranes. Biochemical studies of the C. elegans homolog, EXC-4, show that the membrane localization domain is present in the N-terminal part of the protein. The structure of soluble human CLIC1 reveals that it is monomeric and adopts a fold similar to GSTs, containing an N-terminal domain with a thioredoxin fold and a C-terminal alpha helical domain. Upon oxidation, the N-terminal domain of CLIC1 undergoes a structural change to form a non-covalent dimer stabilized by the formation of an intramolecular disulfide bond between two cysteines that are far apart in the reduced form. T
Probab=95.71 E-value=0.0031 Score=47.26 Aligned_cols=35 Identities=17% Similarity=0.179 Sum_probs=25.8
Q ss_pred HHHHHHHcC-CCcEEEe----------------ccCCCCCCCCHhHHhhCCC
Q psy10373 165 VQLAAAQIG-VPLNLKH----------------TDLMKGEHLTPEFLKLNPQ 199 (215)
Q Consensus 165 ~~~~~~~l~-le~~L~~----------------~~fl~Gd~~T~ADi~l~P~ 199 (215)
...+...+. +|.+|.+ ++|++|+++|+||+++.|.
T Consensus 31 ~~~l~~~L~~ld~~L~~~~~~~~~~~~~~~~~~~~fL~Gd~fTlADi~l~p~ 82 (134)
T cd03198 31 EKGLLKALKKLDDYLNSPLPDEIDSAEDEGVSQRKFLDGDELTLADCNLLPK 82 (134)
T ss_pred HHHHHHHHHHHHHHHccCccccccccccccccCCCCCCCCCCCHHHHHHHHH
Confidence 344445555 5777765 7899999999999999654
No 132
>cd03037 GST_N_GRX2 GST_N family, Glutaredoxin 2 (GRX2) subfamily; composed of bacterial proteins similar to E. coli GRX2, an atypical GRX with a molecular mass of about 24kD, compared with other GRXs which are 9-12kD in size. GRX2 adopts a GST fold containing an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain. It contains a redox active CXXC motif located in the N-terminal domain but is not able to reduce ribonucleotide reductase like other GRXs. However, it catalyzes GSH-dependent protein disulfide reduction of other substrates efficiently. GRX2 is thought to function primarily in catalyzing the reversible glutathionylation of proteins in cellular redox regulation including stress responses.
Probab=95.55 E-value=0.041 Score=35.87 Aligned_cols=59 Identities=14% Similarity=0.292 Sum_probs=41.4
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeC-CeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDN-GYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~-G~~l~es 215 (215)
++....++.+.+++.+....+++......+. +.+ ......+|.+++|++.++ |..++||
T Consensus 3 Ly~~~~~p~~~rvr~~L~~~gl~~~~~~~~~--~~~--~~~~~~~~~~~vP~L~~~~~~~l~es 62 (71)
T cd03037 3 LYIYEHCPFCVKARMIAGLKNIPVEQIILQN--DDE--ATPIRMIGAKQVPILEKDDGSFMAES 62 (71)
T ss_pred eEecCCCcHhHHHHHHHHHcCCCeEEEECCC--Cch--HHHHHhcCCCccCEEEeCCCeEeehH
Confidence 3444556777888899999998766543332 111 244678999999999865 8888886
No 133
>cd03209 GST_C_Mu GST_C family, Class Mu subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The class Mu subfamily is composed of eukaryotic GSTs. In rats, at least six distinct class Mu subunits have been identified, with homologous genes in humans for five of these subunits. Class Mu GSTs can form homodimers and heterodimers, giving a large number of possible isoenzymes that can be formed, all with overlapping activities but different substrate specificities. They are the m
Probab=95.52 E-value=0.0045 Score=45.06 Aligned_cols=32 Identities=13% Similarity=0.043 Sum_probs=25.2
Q ss_pred HHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 167 LAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 167 ~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
.....+. +|.+|++++|++|+++|+||+.+.+
T Consensus 39 ~~~~~l~~le~~L~~~~~l~G~~~T~aDi~l~~ 71 (121)
T cd03209 39 KLPDKLKLFSDFLGDRPWFAGDKITYVDFLLYE 71 (121)
T ss_pred HHHHHHHHHHHHhCCCCCcCCCCccHHHHHHHH
Confidence 3444555 5888888899999999999998843
No 134
>cd00570 GST_N_family Glutathione S-transferase (GST) family, N-terminal domain; a large, diverse group of cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. In addition, GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. This family, also referred to as soluble GSTs, is the largest family of GSH transferases and is only distantly related to the mitochondrial GSTs (GSTK subfamily, a member of the DsbA family). Soluble GSTs bear no structural similarity to microsomal GSTs (MAPEG family) and display additional activities unique to their group, such as catalyzing thiolysis, reduction and isomerization of certain compounds. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical doma
Probab=95.49 E-value=0.083 Score=33.24 Aligned_cols=59 Identities=44% Similarity=0.734 Sum_probs=40.9
Q ss_pred CCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 155 YVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 155 ~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
..+.++.+.+.+......+++......+...++. ......+|.+++|++..+|..+.||
T Consensus 5 ~~~~~~~~~~~~~~l~~~~i~~~~~~~~~~~~~~--~~~~~~~~~~~~P~l~~~~~~~~es 63 (71)
T cd00570 5 YFPGSPRSLRVRLALEEKGLPYELVPVDLGEGEQ--EEFLALNPLGKVPVLEDGGLVLTES 63 (71)
T ss_pred eCCCCccHHHHHHHHHHcCCCcEEEEeCCCCCCC--HHHHhcCCCCCCCEEEECCEEEEcH
Confidence 3344566777778888888876665554322221 1355688999999999999998886
No 135
>PRK10387 glutaredoxin 2; Provisional
Probab=95.47 E-value=0.03 Score=44.43 Aligned_cols=59 Identities=19% Similarity=0.343 Sum_probs=43.9
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceE-EeCCeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTM-DDNGYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l-~~~G~~l~es 215 (215)
++....++.+.+++.+...++++.++...+ .+++.+ .+.++|.++||++ .++|..++||
T Consensus 3 Ly~~~~sp~~~kv~~~L~~~gi~y~~~~~~--~~~~~~--~~~~~p~~~VPvL~~~~g~~l~eS 62 (210)
T PRK10387 3 LYIYDHCPFCVKARMIFGLKNIPVELIVLA--NDDEAT--PIRMIGQKQVPILQKDDGSYMPES 62 (210)
T ss_pred EEeCCCCchHHHHHHHHHHcCCCeEEEEcC--CCchhh--HHHhcCCcccceEEecCCeEecCH
Confidence 344555777888999999999987765432 234333 3678999999999 5889999987
No 136
>cd03080 GST_N_Metaxin_like GST_N family, Metaxin subfamily, Metaxin-like proteins; a heterogenous group of proteins, predominantly uncharacterized, with similarity to metaxins and GSTs. Metaxin 1 is a component of a preprotein import complex of the mitochondrial outer membrane. It extends to the cytosol and is anchored to the mitochondrial membrane through its C-terminal domain. In mice, metaxin is required for embryonic development. In humans, alterations in the metaxin gene may be associated with Gaucher disease. One characterized member of this subgroup is a novel GST from Rhodococcus with toluene o-monooxygenase and gamma-glutamylcysteine synthetase activities. Also members are the cadmium-inducible lysosomal protein CDR-1 and its homologs from C. elegans, and the failed axon connections (fax) protein from Drosophila. CDR-1 is an integral membrane protein that functions to protect against cadmium toxicity and may also have a role in osmoregulation to maintain salt balance in C. ele
Probab=95.40 E-value=0.037 Score=36.68 Aligned_cols=47 Identities=26% Similarity=0.412 Sum_probs=36.0
Q ss_pred CCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 159 SAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 159 ~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
++.+.++.......+++.+....+. ..++|.+++|+++++|..++||
T Consensus 17 sp~~~~v~~~L~~~gi~~~~~~~~~----------~~~~p~g~vPvl~~~g~~l~eS 63 (75)
T cd03080 17 SPFCLKVETFLRMAGIPYENKFGGL----------AKRSPKGKLPFIELNGEKIADS 63 (75)
T ss_pred CHHHHHHHHHHHHCCCCcEEeecCc----------ccCCCCCCCCEEEECCEEEcCH
Confidence 4556677788888888766654432 1688999999999999999987
No 137
>cd03040 GST_N_mPGES2 GST_N family; microsomal Prostaglandin E synthase Type 2 (mPGES2) subfamily; mPGES2 is a membrane-anchored dimeric protein containing a CXXC motif which catalyzes the isomerization of PGH2 to PGE2. Unlike cytosolic PGE synthase (cPGES) and microsomal PGES Type 1 (mPGES1), mPGES2 does not require glutathione (GSH) for its activity, although its catalytic rate is increased two- to four-fold in the presence of DTT, GSH or other thiol compounds. PGE2 is widely distributed in various tissues and is implicated in the sleep/wake cycle, relaxation/contraction of smooth muscle, excretion of sodium ions, maintenance of body temperature and mediation of inflammation. mPGES2 contains an N-terminal hydrophobic domain which is membrane associated, and a C-terminal soluble domain with a GST-like structure.
Probab=95.38 E-value=0.047 Score=36.15 Aligned_cols=58 Identities=17% Similarity=0.300 Sum_probs=41.7
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeC----CeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDN----GYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~----G~~l~es 215 (215)
+++.+.++.+++++......+++.+....+. ....++..+|.+++|+++++ |..++||
T Consensus 4 Ly~~~~~p~c~kv~~~L~~~gi~y~~~~~~~-----~~~~~~~~~~~~~vP~l~~~~~~~~~~l~eS 65 (77)
T cd03040 4 LYQYKTCPFCCKVRAFLDYHGIPYEVVEVNP-----VSRKEIKWSSYKKVPILRVESGGDGQQLVDS 65 (77)
T ss_pred EEEcCCCHHHHHHHHHHHHCCCceEEEECCc-----hhHHHHHHhCCCccCEEEECCCCCccEEEcH
Confidence 4455556777888888888898776654321 12345678999999999854 7889887
No 138
>PF00043 GST_C: Glutathione S-transferase, C-terminal domain; InterPro: IPR004046 In eukaryotes, glutathione S-transferases (GSTs) participate in the detoxification of reactive electrophillic compounds by catalysing their conjugation to glutathione. The GST domain is also found in S-crystallins from squid, and proteins with no known GST activity, such as eukaryotic elongation factors 1-gamma and the HSP26 family of stress-related proteins, which include auxin-regulated proteins in plants and stringent starvation proteins in Escherichia coli. The major lens polypeptide of cephalopods is also a GST [, , , ]. Bacterial GSTs of known function often have a specific, growth-supporting role in biodegradative metabolism: epoxide ring opening and tetrachlorohydroquinone reductive dehalogenation are two examples of the reactions catalysed by these bacterial GSTs. Some regulatory proteins, like the stringent starvation proteins, also belong to the GST family [, ]. GST seems to be absent from Archaea in which gamma-glutamylcysteine substitute to glutathione as major thiol. Glutathione S-transferases form homodimers, but in eukaryotes can also form heterodimers of the A1 and A2 or YC1 and YC2 subunits. The homodimeric enzymes display a conserved structural fold. Each monomer is composed of a distinct N-terminal sub-domain, which adopts the thioredoxin fold, and a C-terminal all-helical sub-domain. This entry is the C-terminal domain.; PDB: 3UAP_A 3UAR_A 3QAV_A 3QAW_A 1Y6E_A 1U88_B 4AI6_B 1UA5_A 4AKH_A 3QMZ_S ....
Probab=95.18 E-value=0.0039 Score=42.96 Aligned_cols=32 Identities=22% Similarity=0.239 Sum_probs=24.6
Q ss_pred HHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 167 LAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 167 ~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
.+...+. +|..|++++|++||++|+||+.+.|
T Consensus 32 ~~~~~l~~le~~l~~~~~l~G~~~t~ADi~~~~ 64 (95)
T PF00043_consen 32 KVPRYLEVLEKRLKGGPYLVGDKLTIADIALFP 64 (95)
T ss_dssp HHHHHHHHHHHHHHTSSSSSBSS-CHHHHHHHH
T ss_pred HHHHHHHHHHHHHcCCCeeeccCCchhHHHHHH
Confidence 4445555 5888889999999999999999843
No 139
>cd03204 GST_C_GDAP1 GST_C family, Ganglioside-induced differentiation-associated protein 1 (GDAP1) subfamily; GDAP1 was originally identified as a highly expressed gene at the differentiated stage of GD3 synthase-transfected cells. More recently, mutations in GDAP1 have been reported to cause both axonal and demyelinating autosomal-recessive Charcot-Marie-Tooth (CMT) type 4A neuropathy. CMT is characterized by slow and progressive weakness and atrophy of muscles. Sequence analysis of GDAP1 shows similarities and differences with GSTs; it appears to contain both N-terminal thioredoxin-fold and C-terminal alpha helical domains of GSTs, however, it also contains additional C-terminal transmembrane domains unlike GSTs. GDAP1 is mainly expressed in neuronal cells and is localized in the mitochondria through its transmembrane domains. It does not exhibit GST activity using standard substrates.
Probab=95.14 E-value=0.0046 Score=44.78 Aligned_cols=34 Identities=15% Similarity=0.149 Sum_probs=24.8
Q ss_pred HHHHHHHcC-CCcEEEec----------cCCCCCCCCHhHHhhCC
Q psy10373 165 VQLAAAQIG-VPLNLKHT----------DLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 165 ~~~~~~~l~-le~~L~~~----------~fl~Gd~~T~ADi~l~P 198 (215)
...+...++ +|.+|.++ +|++|+++|+|||++.+
T Consensus 31 ~~~l~~~l~~LE~~L~~~~~~~~~~~~~~yL~Gd~~TlADi~l~~ 75 (111)
T cd03204 31 LDELEMVLDQVEQELQRRKEETEEQKCQLWLCGDTFTLADISLGV 75 (111)
T ss_pred HHHHHHHHHHHHHHHHcCCcccccccCCCccCCCCCCHHHHHHHH
Confidence 344555555 57777654 49999999999999854
No 140
>PLN02817 glutathione dehydrogenase (ascorbate)
Probab=94.93 E-value=0.069 Score=44.63 Aligned_cols=54 Identities=24% Similarity=0.417 Sum_probs=43.0
Q ss_pred CCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 159 SAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 159 ~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
.+..+++..++..++++..+...+. .+.+..+..+||.|+||+++++|..|+||
T Consensus 73 cp~s~rV~i~L~ekgi~ye~~~vdl---~~~~~~fl~iNP~GkVPvL~~d~~~L~ES 126 (265)
T PLN02817 73 CPFCQRVLLTLEEKHLPYDMKLVDL---TNKPEWFLKISPEGKVPVVKLDEKWVADS 126 (265)
T ss_pred CcHHHHHHHHHHHcCCCCEEEEeCc---CcCCHHHHhhCCCCCCCEEEECCEEEecH
Confidence 4556778888888898877665554 23566789999999999999888899987
No 141
>cd03201 GST_C_DHAR GST_C family, Dehydroascorbate Reductase (DHAR) subfamily; composed of plant-specific DHARs, monomeric enzymes catalyzing the reduction of DHA into ascorbic acid (AsA) using glutathione as the reductant. DHAR allows plants to recycle oxidized AsA before it is lost. AsA serves as a cofactor of violaxanthin de-epoxidase in the xanthophyll cycle and as an antioxidant in the detoxification of reactive oxygen species. Because AsA is the major reductant in plants, DHAR serves to regulate their redox state. It has been suggested that a significant portion of DHAR activity is plastidic, acting to reduce the large amounts of ascorbate oxidized during hydrogen peroxide scavenging by ascorbate peroxidase. DHAR contains a conserved cysteine in its active site and in addition to its reductase activity, shows thiol transferase activity similar to glutaredoxins.
Probab=94.85 E-value=0.0064 Score=44.60 Aligned_cols=34 Identities=24% Similarity=0.341 Sum_probs=25.9
Q ss_pred HHHHHHHcC-CCcEEEe-ccCCCCCCCCHhHHhhCC
Q psy10373 165 VQLAAAQIG-VPLNLKH-TDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 165 ~~~~~~~l~-le~~L~~-~~fl~Gd~~T~ADi~l~P 198 (215)
.+.+.+.+. +|.+|.+ ++|++||++|+||+.+.|
T Consensus 32 ~~~l~~~l~~Le~~L~~~~~fl~Gd~~TlADi~l~~ 67 (121)
T cd03201 32 EQALLDELEALEDHLKENGPFINGEKISAVDLSLAP 67 (121)
T ss_pred HHHHHHHHHHHHHHHhcCCCccCCCCCCHHhHHHHH
Confidence 344455555 6777774 799999999999999866
No 142
>PTZ00057 glutathione s-transferase; Provisional
Probab=94.81 E-value=0.076 Score=42.28 Aligned_cols=57 Identities=23% Similarity=0.421 Sum_probs=39.3
Q ss_pred cCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHH--------hhCCCCccceEEeCCeeeecC
Q psy10373 154 YYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFL--------KLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 154 ~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi--------~l~P~g~lp~l~~~G~~l~es 215 (215)
+..+.......++.++..++++...... |++.+ ... .++|.|++|+++++|..|+||
T Consensus 8 ~y~~~~~~~~~vrl~L~~~gi~ye~~~~----~~~~~-~~~~~~~~~~~~~nP~g~vP~L~~~~~~l~eS 72 (205)
T PTZ00057 8 YYFDARGKAELIRLIFAYLGIEYTDKRF----GENGD-AFIEFKNFKKEKDTPFEQVPILEMDNIIFAQS 72 (205)
T ss_pred EecCCCcchHHHHHHHHHcCCCeEEEec----cccch-HHHHHHhccccCCCCCCCCCEEEECCEEEecH
Confidence 3333345566788889999987655422 33222 211 389999999999999999997
No 143
>TIGR02182 GRXB Glutaredoxin, GrxB family. This model includes the highly abundant E. coli GrxB (Grx2) glutaredoxin which is notably longer than either GrxA or GrxC. Unlike the other two E. coli glutaredoxins, GrxB appears to be unable to reduce ribonucleotide reductase, and may have more to do with resistance to redox stress.
Probab=94.73 E-value=0.075 Score=42.55 Aligned_cols=58 Identities=16% Similarity=0.287 Sum_probs=42.6
Q ss_pred cCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEE-eCCeeeecC
Q psy10373 154 YYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMD-DNGYTLSER 215 (215)
Q Consensus 154 ~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~-~~G~~l~es 215 (215)
|....++.+++++.+...++++.+..... .+++.+ ...+||.|++|+++ ++|..++||
T Consensus 3 y~~~~sp~~~kvr~~L~~~gl~~e~~~~~--~~~~~~--~~~~np~g~vP~l~~~~g~~l~es 61 (209)
T TIGR02182 3 YIYDHCPFCVRARMIFGLKNIPVEKHVLL--NDDEET--PIRMIGAKQVPILQKDDGRAMPES 61 (209)
T ss_pred ecCCCCChHHHHHHHHHHcCCCeEEEECC--CCcchh--HHHhcCCCCcceEEeeCCeEeccH
Confidence 33445677888899999999877664322 234333 37899999999998 889899886
No 144
>cd03188 GST_C_Beta GST_C family, Class Beta subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Unlike mammalian GSTs which detoxify a broad range of compounds, the bacterial class Beta GSTs exhibit limited GSH conjugating activity with a narrow range of substrates. In addition to GSH conjugation, they also bind antibiotics and reduce the antimicrobial activity of beta-lactam drugs. The structure of the Proteus mirabilis enzyme reveals that the cysteine in the active site for
Probab=94.57 E-value=0.023 Score=40.30 Aligned_cols=59 Identities=25% Similarity=0.439 Sum_probs=40.9
Q ss_pred hcccCccCcccceeecCC-CC----CHHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 13 YLRPDTESKKYPHCFGGA-PL----DAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 13 ~~~~~~~~~~~~~~~~~~-~~----~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
.+.|......++..+... .. .+...+++.+.|+.|+..+++++|.+|..++++|+.+..
T Consensus 16 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~l~~~~~l~G~~~t~aDi~~~~ 79 (114)
T cd03188 16 ELHKAFGPLFYPARWATDEAAQEEVKAAARERLAARLAYLDAQLAGGPYLLGDRFSVADAYLFV 79 (114)
T ss_pred hhchhhhhcccccccccChhhHHHHHHHHHHHHHHHHHHHHHHhcCCCeeeCCCcchHHHHHHH
Confidence 355555545555443221 11 233446778889999999999999999999999998755
No 145
>cd03202 GST_C_etherase_LigE GST_C family, Beta etherase LigE subfamily; composed of proteins similar to Sphingomonas paucimobilis beta etherase, LigE, a GST-like protein that catalyzes the cleavage of the beta-aryl ether linkages present in low-moleculer weight lignins using GSH as the hydrogen donor. This reaction is an essential step in the degradation of lignin, a complex phenolic polymer that is the most abundant aromatic material in the biosphere. The beta etherase activity of LigE is enantioselective and it complements the activity of the other GST family beta etherase, LigF. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains.
Probab=94.26 E-value=0.016 Score=42.51 Aligned_cols=33 Identities=15% Similarity=0.077 Sum_probs=26.9
Q ss_pred HHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhh
Q psy10373 164 AVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKL 196 (215)
Q Consensus 164 ~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l 196 (215)
....+.+.++ +|.+|++++|++||++|.||+.+
T Consensus 59 ~~~~~~~~l~~l~~~L~~~~fl~Gd~~t~AD~~l 92 (124)
T cd03202 59 ALANFRAALEPLRATLKGQPFLGGAAPNYADYIV 92 (124)
T ss_pred HHHHHHHHHHHHHHHHcCCCccCCCCCchhHHHH
Confidence 3445556666 68888889999999999999998
No 146
>cd03177 GST_C_Delta_Epsilon GST_C family, Class Delta and Epsilon subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The class Delta and Epsilon subfamily is made up primarily of insect GSTs, which play major roles in insecticide resistance by facilitating reductive dehydrochlorination of insecticides or conjugating them with GSH to produce water-soluble metabolites th
Probab=93.97 E-value=0.019 Score=41.41 Aligned_cols=51 Identities=57% Similarity=0.836 Sum_probs=42.2
Q ss_pred cccceeecCCCCCHHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 21 KKYPHCFGGAPLDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 21 ~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
+++|.++.+.+..+...+++.+.|+.|+..+.+++|.+|..++++|+-+.+
T Consensus 24 ~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~l~G~~~s~aDi~l~~ 74 (118)
T cd03177 24 YYYPILFGGAEPPEEKLDKLEEALDFLETFLEGSDYVAGDQLTIADLSLVA 74 (118)
T ss_pred HHHHHHHcCCCCCHHHHHHHHHHHHHHHHHHccCCeeCCCCcCHHHHHHHH
Confidence 445655555567778888999999999999998899999999999988655
No 147
>cd03205 GST_C_6 GST_C family, unknown subfamily 6; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=93.93 E-value=0.0077 Score=42.09 Aligned_cols=65 Identities=14% Similarity=0.010 Sum_probs=37.1
Q ss_pred HHHHhhhccccchhcccceeeccccCC-CCCCc--hHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhCC
Q psy10373 130 NQRLYFDIGTLYQRFADYFMTIDFYYV-PGSAP--CRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 130 ~~wl~~~~~~l~~~~~~~~~~~~l~~~-~~~~~--~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~P 198 (215)
++|+.+.++-+.+.+....... +... ...+. ......+.+.+. +|.+|++++| +++|+|||.+.+
T Consensus 2 ~~~~~~~~~~~~~~~~~~~~~~-~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~---d~~TlADi~l~~ 70 (98)
T cd03205 2 LRLEALADGILDAAVAIVYERR-LRPEEKRSQPWLERQRGKIERALDALEAELAKLPL---DPLDLADIAVAC 70 (98)
T ss_pred hHHHHHHHHHHHHHHHHHHHHh-hCcHhhhChHHHHHHHHHHHHHHHHHHHhhhhCCC---CCCCHHHHHHHH
Confidence 4677777666655543222111 1111 11111 123345566666 6889988888 899999999743
No 148
>COG2999 GrxB Glutaredoxin 2 [Posttranslational modification, protein turnover, chaperones]
Probab=93.92 E-value=0.051 Score=42.39 Aligned_cols=51 Identities=29% Similarity=0.208 Sum_probs=37.1
Q ss_pred CcceecC---CCCeeeeeHHHHHHHHHHHhCCCCCCCCCCHHHHHHHHHHHhhhcccc
Q psy10373 86 SQTRHPG---NLLVLMFSSRAIIAYLAEQYGKDDSLYPKDPKARGIVNQRLYFDIGTL 140 (215)
Q Consensus 86 P~GkVPv---ddg~~L~ES~AI~~YL~~~~~~~~~L~p~d~~era~v~~wl~~~~~~l 140 (215)
-..+||+ +||..|.||.-|..|+++.+++. +. +.+-|..++.|+.-.++..
T Consensus 44 G~KqVPiL~Kedg~~m~ESlDIV~y~d~~~~~~--~l--t~~~~pai~~wlrkv~~y~ 97 (215)
T COG2999 44 GQKQVPILQKEDGRAMPESLDIVHYVDELDGKP--LL--TGKVRPAIEAWLRKVNGYL 97 (215)
T ss_pred cccccceEEccccccchhhhHHHHHHHHhcCch--hh--ccCcCHHHHHHHHHhcchH
Confidence 3568999 99999999999999999998752 32 2233556677776555443
No 149
>cd03077 GST_N_Alpha GST_N family, Class Alpha subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal TRX-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. The class Alpha subfamily is composed of eukaryotic GSTs which can form homodimer and heterodimers. There are at least six types of class Alpha GST subunits in rats, four of which have human counterparts, resulting in many possible isoenzymes with different activities, tissue distribution and substrate specificities. Human GSTA1-1 and GSTA2-2 show high GSH peroxidase activity. GSTA3-3 catalyzes the isomerization of intermediates in steroid hormone biosynthesis. GSTA4-4 preferentially catalyzes the
Probab=93.90 E-value=0.081 Score=35.51 Aligned_cols=55 Identities=20% Similarity=0.281 Sum_probs=35.4
Q ss_pred CCCCchHHHHHHHHHcCCCcEEEeccCCCCCCC---CHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 157 PGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHL---TPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 157 ~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~---T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
+.+....+++.+...++++......+. ++++ ..+ ...|.+++|+++++|+.++||
T Consensus 8 ~~~~~~~~v~~~l~~~gi~~e~~~v~~--~~~~~~~~~~--~~~~~g~vP~L~~~g~~l~ES 65 (79)
T cd03077 8 NGRGRMESIRWLLAAAGVEFEEKFIES--AEDLEKLKKD--GSLMFQQVPMVEIDGMKLVQT 65 (79)
T ss_pred CCCChHHHHHHHHHHcCCCcEEEEecc--HHHHHhhccc--cCCCCCCCCEEEECCEEEeeH
Confidence 334456677888888888766554332 2211 101 123689999999999999997
No 150
>cd03054 GST_N_Metaxin GST_N family, Metaxin subfamily; composed of metaxins and related proteins. Metaxin 1 is a component of a preprotein import complex of the mitochondrial outer membrane. It extends to the cytosol and is anchored to the mitochondrial membrane through its C-terminal domain. In mice, metaxin is required for embryonic development. In humans, alterations in the metaxin gene may be associated with Gaucher disease. Metaxin 2 binds to metaxin 1 and may also play a role in protein translocation into the mitochondria. Genome sequencing shows that a third metaxin gene also exists in zebrafish, Xenopus, chicken and mammals. Sequence analysis suggests that all three metaxins share a common ancestry and that they possess similarity to GSTs. Also included in the subfamily are uncharacterized proteins with similarity to metaxins, including a novel GST from Rhodococcus with toluene o-monooxygenase and glutamylcysteine synthetase activities.
Probab=93.84 E-value=0.15 Score=33.21 Aligned_cols=47 Identities=19% Similarity=0.342 Sum_probs=35.5
Q ss_pred CCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 159 SAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 159 ~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
++.+.++....+..+++.+....+.. .++|.+++|+++++|..++||
T Consensus 16 sp~~~~v~~~L~~~~i~~~~~~~~~~----------~~~p~g~vP~l~~~g~~l~es 62 (72)
T cd03054 16 SPECLKVETYLRMAGIPYEVVFSSNP----------WRSPTGKLPFLELNGEKIADS 62 (72)
T ss_pred CHHHHHHHHHHHhCCCceEEEecCCc----------ccCCCcccCEEEECCEEEcCH
Confidence 44566777788888887776654431 188999999999999988886
No 151
>cd03079 GST_N_Metaxin2 GST_N family, Metaxin subfamily, Metaxin 2; a metaxin 1 binding protein identified through a yeast two-hybrid system using metaxin 1 as the bait. Metaxin 2 shares sequence similarity with metaxin 1 but does not contain a C-terminal mitochondrial outer membrane signal-anchor domain. It associates with mitochondrial membranes through its interaction with metaxin 1, which is a component of the mitochondrial preprotein import complex of the outer membrane. The biological function of metaxin 2 is unknown. It is likely that it also plays a role in protein translocation into the mitochondria. However, this has not been experimentally validated. In a recent proteomics study, it has been shown that metaxin 2 is overexpressed in response to lipopolysaccharide-induced liver injury.
Probab=93.39 E-value=0.35 Score=32.27 Aligned_cols=48 Identities=27% Similarity=0.355 Sum_probs=34.8
Q ss_pred CCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 159 SAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 159 ~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
.+.+.++....+.++++.+.. .+..++ ..+|.|+||+++++|..++||
T Consensus 17 ~~~~~kv~~~L~elglpye~~--~~~~~~-------~~~P~GkVP~L~~dg~vI~eS 64 (74)
T cd03079 17 NASCLAVQTFLKMCNLPFNVR--CRANAE-------FMSPSGKVPFIRVGNQIVSEF 64 (74)
T ss_pred CCCHHHHHHHHHHcCCCcEEE--ecCCcc-------ccCCCCcccEEEECCEEEeCH
Confidence 344567788888999877765 221122 256779999999999999987
No 152
>KOG3029|consensus
Probab=93.11 E-value=0.066 Score=44.73 Aligned_cols=54 Identities=17% Similarity=0.045 Sum_probs=34.5
Q ss_pred CcccccceeecccccccccceeeccC-Cc-CCCCcceecC--CCCeeeeeHHHHHHHHHH
Q psy10373 55 PWVAGDNITIADCSIVASLSTIECST-SD-HMASQTRHPG--NLLVLMFSSRAIIAYLAE 110 (215)
Q Consensus 55 ~y~~~~~l~l~~~~~~~~~~~~~~~~-~e-~~~P~GkVPv--ddg~~L~ES~AI~~YL~~ 110 (215)
|.|++-+|...++++.- |-+ |--. .| ..+-..|||+ .+|..|.||.+|+.-|+.
T Consensus 102 CcKVrAFLDyhgisY~V-VEV-npV~r~eIk~SsykKVPil~~~Geqm~dSsvIIs~laT 159 (370)
T KOG3029|consen 102 CCKVRAFLDYHGISYAV-VEV-NPVLRQEIKWSSYKKVPILLIRGEQMVDSSVIISLLAT 159 (370)
T ss_pred HHHHHHHHhhcCCceEE-EEe-cchhhhhccccccccccEEEeccceechhHHHHHHHHH
Confidence 56667777777777543 222 3211 11 2237889999 556679999999887743
No 153
>cd03211 GST_C_Metaxin2 GST_C family, Metaxin subfamily, Metaxin 2; a metaxin 1 binding protein identified through a yeast two-hybrid system using metaxin 1 as the bait. Metaxin 2 shares sequence similarity with metaxin 1 but does not contain a C-terminal mitochondrial outer membrane signal-anchor domain. It associates with mitochondrial membranes through its interaction with metaxin 1, which is a component of the mitochondrial preprotein import complex of the outer membrane. The biological function of metaxin 2 is unknown. It is likely that it also plays a role in protein translocation into the mitochondria. However, this has not been experimentally validated. In a recent proteomics study, it has been shown that metaxin 2 is overexpressed in response to lipopolysaccharide-induced liver injury.
Probab=92.96 E-value=0.031 Score=41.23 Aligned_cols=34 Identities=9% Similarity=-0.031 Sum_probs=27.6
Q ss_pred HHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhC
Q psy10373 164 AVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLN 197 (215)
Q Consensus 164 ~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~ 197 (215)
....+.+.++ ++..|.+++|+.||++|.+|+.+.
T Consensus 58 ~~~~~~~~l~aLs~~Lg~~~~l~Gd~pT~~Da~vf 92 (126)
T cd03211 58 VIEEVDQCCQALSQRLGTQPYFFGDQPTELDALVF 92 (126)
T ss_pred HHHHHHHHHHHHHHHHCCCCCCCCCCCcHHHHHHH
Confidence 4455566666 688899999999999999999983
No 154
>cd03210 GST_C_Pi GST_C family, Class Pi subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Class Pi GST is a homodimeric eukaryotic protein. The human GSTP1 is mainly found in erythrocytes, kidney, placenta and fetal liver. It is involved in stress responses and in cellular proliferation pathways as an inhibitor of JNK (c-Jun N-terminal kinase). Following oxidative stress, monomeric GSTP1 dissociates from JNK and dimerizes, losing its ability to bind JNK and causing an incre
Probab=92.80 E-value=0.021 Score=41.85 Aligned_cols=31 Identities=13% Similarity=0.138 Sum_probs=23.4
Q ss_pred HHHHcC-CCcEEEe---ccCCCCCCCCHhHHhhCC
Q psy10373 168 AAAQIG-VPLNLKH---TDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 168 ~~~~l~-le~~L~~---~~fl~Gd~~T~ADi~l~P 198 (215)
+...+. +|..|.+ ++|++|+++|.||+.+.+
T Consensus 40 ~~~~l~~le~~L~~~~~~~~l~G~~~T~ADi~l~~ 74 (126)
T cd03210 40 LPEQLKPFEKLLSKNNGKGFIVGDKISFADYNLFD 74 (126)
T ss_pred HHHHHHHHHHHHHhCCCCCeeeCCCccHHHHHHHH
Confidence 444555 5777764 589999999999998843
No 155
>cd03189 GST_C_GTT1_like GST_C family, Saccharomyces cerevisiae GTT1-like subfamily; composed of predominantly uncharacterized proteins with similarity to the S. cerevisiae GST protein, GTT1, and the Schizosaccharomyces pombe GST-III. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. GTT1, a homodimer, exhibits GST activity with standard substrates and associates with the endopl
Probab=92.52 E-value=0.1 Score=37.41 Aligned_cols=35 Identities=31% Similarity=0.459 Sum_probs=31.1
Q ss_pred HHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 37 AEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 37 ~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
.+++.++|+.|+..+++++|.+|..++++|+.+-.
T Consensus 56 ~~~~~~~l~~le~~L~~~~~l~Gd~~t~ADi~l~~ 90 (119)
T cd03189 56 NPELKKHLDFLEDRLAKKGYFVGDKLTAADIMMSF 90 (119)
T ss_pred hHHHHHHHHHHHHHHccCCCCCCCCCCHHHHHHHH
Confidence 34788899999999999999999999999998754
No 156
>KOG3028|consensus
Probab=92.49 E-value=0.13 Score=43.58 Aligned_cols=121 Identities=10% Similarity=0.021 Sum_probs=74.8
Q ss_pred CCcCCCCcceecC---CCCeeeeeHHHHHHHHHHHhCCCCCCCCC-CHHHHHHHHHHHhhhccccchhccccee------
Q psy10373 80 TSDHMASQTRHPG---NLLVLMFSSRAIIAYLAEQYGKDDSLYPK-DPKARGIVNQRLYFDIGTLYQRFADYFM------ 149 (215)
Q Consensus 80 ~~e~~~P~GkVPv---ddg~~L~ES~AI~~YL~~~~~~~~~L~p~-d~~era~v~~wl~~~~~~l~~~~~~~~~------ 149 (215)
....++|.|++|+ ++|..+..=.-|..+|...-.+- .+-+. ...+++.+.-|+.+..+.+.+.+.-.++
T Consensus 40 sN~~~s~sg~LP~l~~~ng~~va~~~~iv~~L~k~~~ky-~~d~dl~~kq~a~~~a~~sll~~~l~~a~~~t~~v~~~Ny 118 (313)
T KOG3028|consen 40 SNPWRSPSGKLPYLITDNGTKVAGPVKIVQFLKKNTKKY-NLDADLSAKQLADTLAFMSLLEENLEPALLYTFWVDTENY 118 (313)
T ss_pred cCCCCCCCCCCCeEEecCCceeccHHHHHHHHHHhcccC-CcCccHHHHHHHHHHHHHHHHHHHHHHHHHHHHHhcccch
Confidence 4445669999999 67889999999999998632111 13232 3577888999999988888776521111
Q ss_pred --------------eccccCCC---------------CC--CchHHHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhhC
Q psy10373 150 --------------TIDFYYVP---------------GS--APCRAVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKLN 197 (215)
Q Consensus 150 --------------~~~l~~~~---------------~~--~~~~~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l~ 197 (215)
++.++-.. .. ........+..++. +...|+...|+.||++|-=|..+
T Consensus 119 ~e~Tkk~yak~l~fP~n~~~p~~l~~qAk~rl~l~~g~~~~~e~~i~~~Aska~~~LS~~Lgs~kffFgd~psslDa~l- 197 (313)
T KOG3028|consen 119 NEVTKKWYAKALPFPLNYILPGKLQRQAKERLQLTLGELTEREDQIYKDASKALNLLSTLLGSKKFFFGDKPSSLDALL- 197 (313)
T ss_pred hhHhHHHHHhcCCCchhhcchhhhHHHHHHHHHHHhCCchhhHHHHHHHHHHHHHHHHHHhcCceEeeCCCCchHHHHH-
Confidence 11100000 00 00111122334444 46778889999999999888877
Q ss_pred CCCccc
Q psy10373 198 PQHTVP 203 (215)
Q Consensus 198 P~g~lp 203 (215)
.+|+.
T Consensus 198 -fs~la 202 (313)
T KOG3028|consen 198 -FSYLA 202 (313)
T ss_pred -HHHHH
Confidence 55543
No 157
>cd03197 GST_C_mPGES2 GST_C family; microsomal Prostaglandin E synthase Type 2 (mPGES2) subfamily; mPGES2 is a membrane-anchored dimeric protein containing a CXXC motif which catalyzes the isomerization of PGH2 to PGE2. Unlike cytosolic PGE synthase (cPGES) and microsomal PGES Type 1 (mPGES1), mPGES2 does not require glutathione (GSH) for its activity, although its catalytic rate is increased two- to four-fold in the presence of DTT, GSH, or other thiol compounds. PGE2 is widely distributed in various tissues and is implicated in the sleep/wake cycle, relaxation/contraction of smooth muscle, excretion of sodium ions, maintenance of body temperature, and mediation of inflammation. mPGES2 contains an N-terminal hydrophobic domain which is membrane associated and a C-terminal soluble domain with a GST-like structure. The C-terminus contains two structural domains a N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain. The GST active site is located in a cleft between t
Probab=92.33 E-value=0.017 Score=43.99 Aligned_cols=30 Identities=10% Similarity=0.040 Sum_probs=22.4
Q ss_pred CcEEEeccCCCCCCCCHhHHhhCCCCccceEE
Q psy10373 175 PLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMD 206 (215)
Q Consensus 175 e~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~ 206 (215)
+...++++|++|+++|+||+++ .+.+..++
T Consensus 93 ~~~~~~~~FlaGd~ptIADisv--yg~l~s~e 122 (149)
T cd03197 93 AALGKDRQFHGGSKPNLADLAV--YGVLRSVE 122 (149)
T ss_pred HHhcCCCCccCCCCCCHHHHHH--HHHHHHHH
Confidence 4434457899999999999999 55555554
No 158
>PF10568 Tom37: Outer mitochondrial membrane transport complex protein; InterPro: IPR019564 Tom37 is one of the outer membrane proteins that make up the TOM complex for guiding cytosolic mitochondrial beta-barrel proteins from the cytosol across the outer mitochondrial membrane into the intramembrane space. In conjunction with Tom70, it guides peptides without an mitochondrial targeting sequence (MTS) into Tom40, the protein that forms the passage through the outer membrane []. It has homology with metaxin, also part of the outer mitochondrial membrane beta-barrel protein transport complex []. This entry represents outer mitochondrial membrane transport complex proteins Tom37 and metaxin.; GO: 0006626 protein targeting to mitochondrion, 0005741 mitochondrial outer membrane
Probab=92.11 E-value=0.17 Score=33.61 Aligned_cols=29 Identities=17% Similarity=0.256 Sum_probs=25.4
Q ss_pred CCcCCCCcceecC--C-CCeeeeeHHHHHHHH
Q psy10373 80 TSDHMASQTRHPG--N-LLVLMFSSRAIIAYL 108 (215)
Q Consensus 80 ~~e~~~P~GkVPv--d-dg~~L~ES~AI~~YL 108 (215)
....++|.|++|+ + +|..+.+-..|++||
T Consensus 40 ~n~~~Sptg~LP~L~~~~~~~vsg~~~Iv~yL 71 (72)
T PF10568_consen 40 NNPWLSPTGELPALIDSGGTWVSGFRNIVEYL 71 (72)
T ss_pred CCCCcCCCCCCCEEEECCCcEEECHHHHHHhh
Confidence 3346779999999 6 899999999999998
No 159
>PF00043 GST_C: Glutathione S-transferase, C-terminal domain; InterPro: IPR004046 In eukaryotes, glutathione S-transferases (GSTs) participate in the detoxification of reactive electrophillic compounds by catalysing their conjugation to glutathione. The GST domain is also found in S-crystallins from squid, and proteins with no known GST activity, such as eukaryotic elongation factors 1-gamma and the HSP26 family of stress-related proteins, which include auxin-regulated proteins in plants and stringent starvation proteins in Escherichia coli. The major lens polypeptide of cephalopods is also a GST [, , , ]. Bacterial GSTs of known function often have a specific, growth-supporting role in biodegradative metabolism: epoxide ring opening and tetrachlorohydroquinone reductive dehalogenation are two examples of the reactions catalysed by these bacterial GSTs. Some regulatory proteins, like the stringent starvation proteins, also belong to the GST family [, ]. GST seems to be absent from Archaea in which gamma-glutamylcysteine substitute to glutathione as major thiol. Glutathione S-transferases form homodimers, but in eukaryotes can also form heterodimers of the A1 and A2 or YC1 and YC2 subunits. The homodimeric enzymes display a conserved structural fold. Each monomer is composed of a distinct N-terminal sub-domain, which adopts the thioredoxin fold, and a C-terminal all-helical sub-domain. This entry is the C-terminal domain.; PDB: 3UAP_A 3UAR_A 3QAV_A 3QAW_A 1Y6E_A 1U88_B 4AI6_B 1UA5_A 4AKH_A 3QMZ_S ....
Probab=91.88 E-value=0.15 Score=34.90 Aligned_cols=40 Identities=30% Similarity=0.508 Sum_probs=33.0
Q ss_pred CCHHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 32 LDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 32 ~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
..++..+++.+.|+.++..++|+.|.+|..++++|+-+..
T Consensus 25 ~~~~~~~~~~~~l~~le~~l~~~~~l~G~~~t~ADi~~~~ 64 (95)
T PF00043_consen 25 MVEEARAKVPRYLEVLEKRLKGGPYLVGDKLTIADIALFP 64 (95)
T ss_dssp HHHHHHHHHHHHHHHHHHHHHTSSSSSBSS-CHHHHHHHH
T ss_pred HHHHHHHHHHHHHHHHHHHHcCCCeeeccCCchhHHHHHH
Confidence 3445567778889999999999999999999999998766
No 160
>cd03196 GST_C_5 GST_C family, unknown subfamily 5; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=91.82 E-value=0.095 Score=37.80 Aligned_cols=52 Identities=21% Similarity=0.327 Sum_probs=40.2
Q ss_pred cCcccceeecCCCCCHHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 19 ESKKYPHCFGGAPLDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 19 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
....++..+++ +..+...+++.+.|+.|+..+++++|.+|..++++|+.+..
T Consensus 26 ~~~~~~~~~~~-~~~~~~~~~i~~~l~~le~~L~~~~yl~Gd~~tlADi~l~~ 77 (115)
T cd03196 26 DRYKYADRYPE-ESEEEYRQQAEAFLKDLEARLQQHSYLLGDKPSLADWAIFP 77 (115)
T ss_pred HhccchhhcCc-ccHHHHHHHHHHHHHHHHHHHccCCccCCCCccHHHHHHHH
Confidence 33334555554 24556678899999999999998899999999999997654
No 161
>cd03179 GST_C_1 GST_C family, unknown subfamily 1; composed of uncharacterized bacterial proteins, with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=91.63 E-value=0.29 Score=33.93 Aligned_cols=37 Identities=35% Similarity=0.469 Sum_probs=31.9
Q ss_pred HHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 35 EKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 35 ~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
...+++++.++.|+..+.+++|.+|..++++|+-+..
T Consensus 43 ~~~~~~~~~l~~le~~L~~~~~l~g~~~slaDi~~~~ 79 (105)
T cd03179 43 FLRERGHAALAVLEAHLAGRDFLVGDALTIADIALAA 79 (105)
T ss_pred HHHHHHHHHHHHHHHHHccCccccCCCCCHHHHHHHH
Confidence 4566777789999999998899999999999998755
No 162
>cd03193 GST_C_Metaxin GST_C family, Metaxin subfamily; composed of metaxins and related proteins. Metaxin 1 is a component of a preprotein import complex of the mitochondrial outer membrane. It extends to the cytosol and is anchored to the mitochondrial membrane through its C-terminal domain. In mice, metaxin is required for embryonic development. In humans, alterations in the metaxin gene may be associated with Gaucher disease. Metaxin 2 binds to metaxin 1 and may also play a role in protein translocation into the mitochondria. Genome sequencing shows that a third metaxin gene also exists in zebrafish, Xenopus, chicken, and mammals. Sequence analysis suggests that all three metaxins share a common ancestry and that they possess similarity to GSTs. Also included in the subfamily are uncharacterized proteins with similarity to metaxins, including a novel GST from Rhodococcus with toluene o-monooxygenase and glutamylcysteine synthetase activities. Other members are the cadmium-inducible
Probab=91.37 E-value=0.2 Score=33.97 Aligned_cols=37 Identities=22% Similarity=0.278 Sum_probs=33.5
Q ss_pred HHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 35 EKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 35 ~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
+..+++.+.++.|+..+++++|.+|..++++|+.+.+
T Consensus 19 ~~~~~~~~~l~~le~~L~~~~yl~Gd~~t~aDi~l~~ 55 (88)
T cd03193 19 EIYSLAKKDLKALSDLLGDKKFFFGDKPTSLDATVFG 55 (88)
T ss_pred HHHHHHHHHHHHHHHHhCCCCccCCCCCCHHHHHHHH
Confidence 6678899999999999999999999999999998754
No 163
>PF13410 GST_C_2: Glutathione S-transferase, C-terminal domain; PDB: 4DEJ_H 3IC8_A 2JL4_A 2V6K_B 3CBU_B 1JLW_B 3F6D_B 3G7I_A 3F63_A 3G7J_B ....
Probab=90.85 E-value=0.25 Score=31.72 Aligned_cols=42 Identities=29% Similarity=0.443 Sum_probs=33.6
Q ss_pred HHHHHHHHHHHhHHHHhhCCCCcccccceeecccccccccce
Q psy10373 34 AEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVASLST 75 (215)
Q Consensus 34 ~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~ 75 (215)
++..+++.+.++.|+..+.+++|..|...+++|+.+-+.+..
T Consensus 5 ~~~~~~~~~~l~~le~~L~~~~fl~G~~~s~aD~~l~~~l~~ 46 (69)
T PF13410_consen 5 ERARAQLEAALDALEDHLADGPFLFGDRPSLADIALAPFLWR 46 (69)
T ss_dssp HHHHHHHHHHHHHHHHHHTTSSBTTBSS--HHHHHHHHHHHH
T ss_pred HHHHHHHHHHHHHHHHHHhhCCCCCCCCCCHHHHHHHHHHHH
Confidence 456788899999999999999999999999999987664333
No 164
>cd03190 GST_C_ECM4_like GST_C family, ECM4-like subfamily; composed of predominantly uncharacterized and taxonomically diverse proteins with similarity to the translation product of the Saccharomyces cerevisiae gene ECM4. ECM4, a gene of unknown function, is involved in cell surface biosynthesis and architecture. S. cerevisiae ECM4 mutants show increased amounts of the cell wall hexose, N-acetylglucosamine. More recently, global gene expression analysis shows that ECM4 is upregulated during genotoxic conditions and together with the expression profiles of 18 other genes could potentially differentiate between genotoxic and cytotoxic insults in yeast.
Probab=90.83 E-value=0.23 Score=37.23 Aligned_cols=40 Identities=28% Similarity=0.392 Sum_probs=34.5
Q ss_pred CCHHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 32 LDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 32 ~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
..++..+++.+.|+.|+..+++++|.+|..++++|+-+.+
T Consensus 34 ~~~~~~~~l~~~l~~LE~~L~~~~yl~Gd~~TlADi~l~~ 73 (142)
T cd03190 34 AYDEAVDELFEALDRLEELLSDRRYLLGDRLTEADIRLFT 73 (142)
T ss_pred HHHHHHHHHHHHHHHHHHHHccCCeeeCCCccHHHHHHHH
Confidence 3445677899999999999999999999999999998655
No 165
>cd03180 GST_C_2 GST_C family, unknown subfamily 2; composed of uncharacterized bacterial proteins, with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=90.78 E-value=0.25 Score=34.59 Aligned_cols=36 Identities=28% Similarity=0.493 Sum_probs=31.9
Q ss_pred HHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 36 KAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 36 ~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
..+++.+.|+.||..+++++|.+|..++++|+-+..
T Consensus 44 ~~~~~~~~l~~lE~~L~~~~~l~g~~~t~aDi~~~~ 79 (110)
T cd03180 44 SLAAWAKLMAILDAQLAGRPYLAGDRFTLADIPLGC 79 (110)
T ss_pred HHHHHHHHHHHHHHHhCCCCcccCCCCCHHHHHHHH
Confidence 356788899999999999999999999999988755
No 166
>cd03206 GST_C_7 GST_C family, unknown subfamily 7; composed of uncharacterized proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=90.76 E-value=0.25 Score=34.35 Aligned_cols=40 Identities=30% Similarity=0.479 Sum_probs=34.3
Q ss_pred CCHHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 32 LDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 32 ~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
..+...+++++.|+.|+..+.+++|.+|..++++|+.+..
T Consensus 30 ~~~~~~~~~~~~l~~le~~L~~~~~l~G~~~t~aDi~~~~ 69 (100)
T cd03206 30 DKETAIARAHRLLRLLEEHLAGRDWLAGDRPTIADVAVYP 69 (100)
T ss_pred HHHHHHHHHHHHHHHHHHHHccCCccCCCCCCHHHHHHHH
Confidence 3455678899999999999999999999999999987644
No 167
>COG0435 ECM4 Predicted glutathione S-transferase [Posttranslational modification, protein turnover, chaperones]
Probab=90.69 E-value=0.34 Score=40.48 Aligned_cols=46 Identities=28% Similarity=0.411 Sum_probs=37.4
Q ss_pred CCHHHHHHHHHHHhHHHHhhCCCCcccccceeecccccccccceee
Q psy10373 32 LDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVASLSTIE 77 (215)
Q Consensus 32 ~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~~~ 77 (215)
+=++..+++=++|.-||+.|+.+.|.+|+.||-+|+-+-.++.-+|
T Consensus 202 aYeea~~~lF~~Ld~lE~~L~~~ryl~Gd~lTEAD~RLftTlvRFD 247 (324)
T COG0435 202 AYEEAVKKLFEALDKLEQILSERRYLTGDQLTEADIRLFTTLVRFD 247 (324)
T ss_pred HHHHHHHHHHHHHHHHHHHhhcCeeeccccchHhhhhhhheeEeec
Confidence 4456677788889999999999999999999999988766544434
No 168
>cd03208 GST_C_Alpha GST_C family, Class Alpha subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The class Alpha subfamily is composed of vertebrate GSTs which can form homodimer and heterodimers. There are at least six types of class Alpha GST subunits in rats, four of which have human counterparts, resulting in many possible isoenzymes with different activities, tissue distribution and substrate specificities. Human GSTA1-1 and GSTA2-2 show high GSH peroxidase activity. GS
Probab=90.61 E-value=0.06 Score=40.24 Aligned_cols=29 Identities=21% Similarity=0.212 Sum_probs=23.0
Q ss_pred HHHcC-CCcEEE--eccCCCCCCCCHhHHhhC
Q psy10373 169 AAQIG-VPLNLK--HTDLMKGEHLTPEFLKLN 197 (215)
Q Consensus 169 ~~~l~-le~~L~--~~~fl~Gd~~T~ADi~l~ 197 (215)
...++ +|..|. +++|++|+++|+||+.+.
T Consensus 45 ~~~l~~lE~~L~~~~~~~l~G~~~T~ADi~l~ 76 (137)
T cd03208 45 NRYFPVFEKVLKSHGQDFLVGNKLSRADIHLL 76 (137)
T ss_pred HHHHHHHHHHHHhCCCCeeeCCCCCHHHHHHH
Confidence 34555 577777 678999999999999874
No 169
>cd03198 GST_C_CLIC GST_C family, Chloride Intracellular Channel (CLIC) subfamily; composed of CLIC1-5, p64, parchorin, and similar proteins. They are auto-inserting, self-assembling intracellular anion channels involved in a wide variety of functions including regulated secretion, cell division, and apoptosis. They can exist in both water-soluble and membrane-bound states and are found in various vesicles and membranes. Biochemical studies of the C. elegans homolog, EXC-4, show that the membrane localization domain is present in the N-terminal part of the protein. The structure of soluble human CLIC1 reveals that it is monomeric and adopts a fold similar to GSTs, containing an N-terminal domain with a thioredoxin fold and a C-terminal alpha helical domain. Upon oxidation, the N-terminal domain of CLIC1 undergoes a structural change to form a non-covalent dimer stabilized by the formation of an intramolecular disulfide bond between two cysteines that are far apart in the reduced form. T
Probab=90.54 E-value=0.2 Score=37.47 Aligned_cols=43 Identities=33% Similarity=0.614 Sum_probs=36.3
Q ss_pred CCCHHHHHHHHHHHhHHHHhhCC----------------CCcccccceeeccccccccc
Q psy10373 31 PLDAEKAEKLDQALGFLNTFLAS----------------SPWVAGDNITIADCSIVASL 73 (215)
Q Consensus 31 ~~~~~~~~~~~~~~~~l~~~~~g----------------~~y~~~~~l~l~~~~~~~~~ 73 (215)
...+...+++.+.|+.|+.+|++ ++|.+|..+|++|+.+.+.+
T Consensus 25 ~~~e~~~~~l~~~L~~ld~~L~~~~~~~~~~~~~~~~~~~~fL~Gd~fTlADi~l~p~L 83 (134)
T cd03198 25 ALNENLEKGLLKALKKLDDYLNSPLPDEIDSAEDEGVSQRKFLDGDELTLADCNLLPKL 83 (134)
T ss_pred hhhHHHHHHHHHHHHHHHHHHccCccccccccccccccCCCCCCCCCCCHHHHHHHHHH
Confidence 34566668899999999999985 78999999999999987743
No 170
>cd00299 GST_C_family Glutathione S-transferase (GST) family, C-terminal alpha helical domain; a large, diverse group of cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. In addition, GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. This family, also referred to as soluble GSTs, is the largest family of GSH transferases and is only distantly related to the mitochondrial GSTs (GSTK). Soluble GSTs bear no structural similarity to microsomal GSTs (MAPEG family) and display additional activities unique to their group, such as catalyzing thiolysis, reduction and isomerization of certain compounds. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an activ
Probab=90.32 E-value=0.24 Score=33.68 Aligned_cols=42 Identities=36% Similarity=0.556 Sum_probs=34.7
Q ss_pred CCHHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccccc
Q psy10373 32 LDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVASL 73 (215)
Q Consensus 32 ~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~~~ 73 (215)
..+...+++++.++.|+..++++.|.+|..++++|+.+.+-+
T Consensus 33 ~~~~~~~~~~~~~~~l~~~L~~~~~~~g~~~t~aDi~~~~~l 74 (100)
T cd00299 33 ALEEAREELAAALAALEKLLAGRPYLAGDRFSLADIALAPVL 74 (100)
T ss_pred HHHHHHHHHHHHHHHHHHHHccCCCCCCCCcCHHHHHHHHHH
Confidence 334556688888999999999999999999999999876633
No 171
>cd03201 GST_C_DHAR GST_C family, Dehydroascorbate Reductase (DHAR) subfamily; composed of plant-specific DHARs, monomeric enzymes catalyzing the reduction of DHA into ascorbic acid (AsA) using glutathione as the reductant. DHAR allows plants to recycle oxidized AsA before it is lost. AsA serves as a cofactor of violaxanthin de-epoxidase in the xanthophyll cycle and as an antioxidant in the detoxification of reactive oxygen species. Because AsA is the major reductant in plants, DHAR serves to regulate their redox state. It has been suggested that a significant portion of DHAR activity is plastidic, acting to reduce the large amounts of ascorbate oxidized during hydrogen peroxide scavenging by ascorbate peroxidase. DHAR contains a conserved cysteine in its active site and in addition to its reductase activity, shows thiol transferase activity similar to glutaredoxins.
Probab=90.22 E-value=0.2 Score=36.54 Aligned_cols=41 Identities=22% Similarity=0.391 Sum_probs=35.1
Q ss_pred CCCHHHHHHHHHHHhHHHHhhCC-CCcccccceeeccccccc
Q psy10373 31 PLDAEKAEKLDQALGFLNTFLAS-SPWVAGDNITIADCSIVA 71 (215)
Q Consensus 31 ~~~~~~~~~~~~~~~~l~~~~~g-~~y~~~~~l~l~~~~~~~ 71 (215)
+..++..+++.+.|..|+..+.+ .+|.+|..++++|+.+-+
T Consensus 26 ~~~~~~~~~l~~~l~~Le~~L~~~~~fl~Gd~~TlADi~l~~ 67 (121)
T cd03201 26 DSNDGTEQALLDELEALEDHLKENGPFINGEKISAVDLSLAP 67 (121)
T ss_pred cHHHHHHHHHHHHHHHHHHHHhcCCCccCCCCCCHHhHHHHH
Confidence 33477789999999999999984 799999999999998765
No 172
>cd03207 GST_C_8 GST_C family, unknown subfamily 8; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=90.18 E-value=0.24 Score=34.53 Aligned_cols=40 Identities=25% Similarity=0.348 Sum_probs=34.5
Q ss_pred CCHHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 32 LDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 32 ~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
......+++.+.++.|+..+++++|.+|..++++|+.+..
T Consensus 27 ~~~~~~~~~~~~l~~le~~l~~~~~l~g~~~t~aDi~~~~ 66 (103)
T cd03207 27 ARMAGFGSYDDVLAALEQALAKGPYLLGERFTAADVLVGS 66 (103)
T ss_pred hhhhhhhhHHHHHHHHHHHHccCCcccCCccCHHHHHHHH
Confidence 3455678899999999999999999999999999988654
No 173
>cd03178 GST_C_Ure2p_like GST_C family, Ure2p-like subfamily; composed of the Saccharomyces cerevisiae Ure2p and related GSTs. Ure2p is a regulator for nitrogen catabolism in yeast. It represses the expression of several gene products involved in the use of poor nitrogen sources when rich sources are available. A transmissible conformational change of Ure2p results in a prion called [Ure3], an inactive, self-propagating and infectious amyloid. Ure2p displays a GST fold containing an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain. The N-terminal thioredoxin-fold domain is sufficient to induce the [Ure3] phenotype and is also called the prion domain of Ure2p. In addition to its role in nitrogen regulation, Ure2p confers protection to cells against heavy metal ion and oxidant toxicity, and shows glutathione (GSH) peroxidase activity. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of GSH with a wide range of en
Probab=90.10 E-value=0.42 Score=33.70 Aligned_cols=36 Identities=31% Similarity=0.489 Sum_probs=31.5
Q ss_pred HHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 36 KAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 36 ~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
..+++.+.|+.++..+++++|.+|..++++|+-+.+
T Consensus 41 ~~~~~~~~l~~le~~L~~~~~l~G~~~t~aDi~l~~ 76 (113)
T cd03178 41 YTNEAKRLYGVLDKRLAGRDYLAGDEYSIADIAIFP 76 (113)
T ss_pred HHHHHHHHHHHHHHHHccCCcccCCCCCeeeeeHHH
Confidence 446788889999999999999999999999998754
No 174
>cd03187 GST_C_Phi GST_C family, Class Phi subfamily; composed of plant-specific class Phi GSTs and related fungal and bacterial proteins. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The class Phi GST subfamily has experience extensive gene duplication. The Arabidopsis and Oryza genomes contain 13 and 16 Tau GSTs, respectively. They are primarily responsible for herbicide detoxification together with class Tau GSTs, showing class specificity in substrate preference. Phi enzymes a
Probab=89.90 E-value=0.3 Score=34.68 Aligned_cols=35 Identities=37% Similarity=0.541 Sum_probs=31.1
Q ss_pred HHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 37 AEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 37 ~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
.+.+.+.++.|+..+++++|.+|..++++|+.+.+
T Consensus 47 ~~~~~~~l~~le~~L~~~~~l~G~~~t~aDi~l~~ 81 (118)
T cd03187 47 EEKLKKVLDVYEARLSKSKYLAGDSFTLADLSHLP 81 (118)
T ss_pred HHHHHHHHHHHHHHcccCcccCCCCccHHHHHHHH
Confidence 45778889999999999999999999999999755
No 175
>cd03182 GST_C_GTT2_like GST_C family, Saccharomyces cerevisiae GTT2-like subfamily; composed of predominantly uncharacterized proteins with similarity to the S. cerevisiae GST protein, GTT2. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. GTT2, a homodimer, exhibits GST activity with standard substrates. Strains with deleted GTT2 genes are viable but exhibit increased sensiti
Probab=89.86 E-value=0.32 Score=34.57 Aligned_cols=38 Identities=39% Similarity=0.593 Sum_probs=33.0
Q ss_pred HHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 34 AEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 34 ~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
....+++++.|+.|+..++++.|.+|..++++|+.+..
T Consensus 48 ~~~~~~l~~~l~~le~~L~~~~~l~gd~~t~aDi~l~~ 85 (117)
T cd03182 48 ERSKARAADFLAYLDTRLAGSPYVAGDRFTIADITAFV 85 (117)
T ss_pred HHHHHHHHHHHHHHHHHhcCCCcccCCCCCHHHHHHHH
Confidence 34567888999999999998899999999999988655
No 176
>cd03212 GST_C_Metaxin1_3 GST_C family, Metaxin subfamily, Metaxin 1-like proteins; composed of metaxins 1 and 3, and similar proteins. Mammalian metaxin (or metaxin 1) is a component of the preprotein import complex of the mitochondrial outer membrane. Metaxin extends to the cytosol and is anchored to the mitochondrial membrane through its C-terminal domain. In mice, metaxin is required for embryonic development. Like the murine gene, the human metaxin gene is located downstream to the glucocerebrosidase (GBA) pseudogene and is convergently transcribed. Inherited deficiency of GBA results in Gaucher disease, which presents many diverse clinical phenotypes. Alterations in the metaxin gene, in addition to GBA mutations, may be associated with Gaucher disease. Genome sequencing shows that a third metaxin gene also exists in zebrafish, Xenopus, chicken, and mammals.
Probab=89.66 E-value=0.086 Score=39.52 Aligned_cols=33 Identities=12% Similarity=0.064 Sum_probs=26.5
Q ss_pred HHHHHHHHcC-CCcEEEeccCCCCCCCCHhHHhh
Q psy10373 164 AVQLAAAQIG-VPLNLKHTDLMKGEHLTPEFLKL 196 (215)
Q Consensus 164 ~~~~~~~~l~-le~~L~~~~fl~Gd~~T~ADi~l 196 (215)
..+.+...+. ++..|.+++|+.||++|.+|+.+
T Consensus 65 ~~~~a~~~l~~l~~~L~~~~~~~Gd~~t~~D~~~ 98 (137)
T cd03212 65 IYRDAKECLNLLSQRLGESQFFFGDTPTSLDALV 98 (137)
T ss_pred HHHHHHHHHHHHHHHHCCCCcCCCCCCcHHHHHH
Confidence 3444555565 68888899999999999999998
No 177
>cd03186 GST_C_SspA GST_N family, Stringent starvation protein A (SspA) subfamily; SspA is a RNA polymerase (RNAP)-associated protein required for the lytic development of phage P1 and for stationary phase-induced acid tolerance of E. coli. It is implicated in survival during nutrient starvation. SspA adopts the GST fold with an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, but it does not bind glutathione (GSH) and lacks GST activity. SspA is highly conserved among gram-negative bacteria. Related proteins found in Neisseria (called RegF), Francisella and Vibrio regulate the expression of virulence factors necessary for pathogenesis.
Probab=89.45 E-value=0.38 Score=33.73 Aligned_cols=38 Identities=18% Similarity=0.489 Sum_probs=33.5
Q ss_pred HHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 34 AEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 34 ~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
++..+++.+.|+.|+..+++++|.+|..++++|+.+-+
T Consensus 34 ~~~~~~~~~~l~~le~~L~~~~~l~G~~~t~aDi~~~~ 71 (107)
T cd03186 34 EKARKELRESLLALAPVFAHKPYFMSEEFSLVDCALAP 71 (107)
T ss_pred HHHHHHHHHHHHHHHHHHcCCCcccCCCCcHHHHHHHH
Confidence 34566788999999999998999999999999998766
No 178
>cd03185 GST_C_Tau GST_C family, Class Tau subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The plant-specific class Tau GST subfamily has undergone extensive gene duplication. The Arabidopsis and Oryza genomes contain 28 and 40 Tau GSTs, respectively. They are primarily responsible for herbicide detoxification together with class Phi GSTs, showing class specificity in substrate preference. Tau enzymes are highly efficient in detoxifying diphenylether and aryloxyphenoxypropi
Probab=89.20 E-value=0.41 Score=34.46 Aligned_cols=41 Identities=24% Similarity=0.332 Sum_probs=35.2
Q ss_pred CCCHHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 31 PLDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 31 ~~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
+..++..+++.+.++.|+..+++++|.+|..++++|+-+.+
T Consensus 31 ~~~~~~~~~~~~~l~~le~~L~~~~~l~G~~~t~ADi~l~~ 71 (126)
T cd03185 31 EEREKAKEEALEALKVLEEELGGKPFFGGDTIGYVDIALGS 71 (126)
T ss_pred HHHHHHHHHHHHHHHHHHHHhcCCCCCCCCCcchHHHHHHH
Confidence 34455677899999999999998899999999999988765
No 179
>KOG0406|consensus
Probab=89.04 E-value=0.94 Score=37.03 Aligned_cols=60 Identities=23% Similarity=0.310 Sum_probs=46.2
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhC-CCCccceEEeCCeeeecC
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLN-PQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~-P~g~lp~l~~~G~~l~es 215 (215)
+++.-.++...++..++++.++..+....+.- +-|.-.+..| |.++||+|+++|-.+.||
T Consensus 12 L~~~w~sPfa~R~~iaL~~KgI~yE~veedl~---~Ks~~ll~~np~hkKVPvL~Hn~k~i~ES 72 (231)
T KOG0406|consen 12 LLGMWFSPFAQRVRIALKLKGIPYEYVEEDLT---NKSEWLLEKNPVHKKVPVLEHNGKPICES 72 (231)
T ss_pred EEEeecChHHHHHHHHHHhcCCceEEEecCCC---CCCHHHHHhccccccCCEEEECCceehhh
Confidence 34444566677888888888888777665542 2677889999 577999999999999987
No 180
>KOG4420|consensus
Probab=88.57 E-value=0.31 Score=40.37 Aligned_cols=61 Identities=30% Similarity=0.417 Sum_probs=46.6
Q ss_pred CCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeeeecC
Q psy10373 155 YVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 155 ~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l~es 215 (215)
..+.+-.+.+++.+....+++..-.......|++.+..+.-+||.|.||++.++...|.++
T Consensus 31 hhpysf~sQkVrlvi~EK~id~~~y~V~l~~geh~epwFmrlNp~gevPVl~~g~~II~d~ 91 (325)
T KOG4420|consen 31 HHPYSFSSQKVRLVIAEKGIDCEEYDVSLPQGEHKEPWFMRLNPGGEVPVLIHGDNIISDY 91 (325)
T ss_pred ecCcccccceeeeehhhcccccceeeccCccccccCchheecCCCCCCceEecCCeecccH
Confidence 3344444445667777777766655677888999999999999999999999988777654
No 181
>cd03202 GST_C_etherase_LigE GST_C family, Beta etherase LigE subfamily; composed of proteins similar to Sphingomonas paucimobilis beta etherase, LigE, a GST-like protein that catalyzes the cleavage of the beta-aryl ether linkages present in low-moleculer weight lignins using GSH as the hydrogen donor. This reaction is an essential step in the degradation of lignin, a complex phenolic polymer that is the most abundant aromatic material in the biosphere. The beta etherase activity of LigE is enantioselective and it complements the activity of the other GST family beta etherase, LigF. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains.
Probab=88.47 E-value=0.56 Score=34.22 Aligned_cols=42 Identities=19% Similarity=0.245 Sum_probs=36.6
Q ss_pred CCCHHHHHHHHHHHhHHHHhhCCCCcccccceeecccccccc
Q psy10373 31 PLDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVAS 72 (215)
Q Consensus 31 ~~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~~ 72 (215)
+..++..+++++.|+.|+..+++++|.+|...+++|+.+...
T Consensus 54 ~~~~~~~~~~~~~l~~l~~~L~~~~fl~Gd~~t~AD~~l~~~ 95 (124)
T cd03202 54 AGREAALANFRAALEPLRATLKGQPFLGGAAPNYADYIVFGG 95 (124)
T ss_pred cchHHHHHHHHHHHHHHHHHHcCCCccCCCCCchhHHHHHHH
Confidence 345688889999999999999999999999999999887553
No 182
>cd03208 GST_C_Alpha GST_C family, Class Alpha subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The class Alpha subfamily is composed of vertebrate GSTs which can form homodimer and heterodimers. There are at least six types of class Alpha GST subunits in rats, four of which have human counterparts, resulting in many possible isoenzymes with different activities, tissue distribution and substrate specificities. Human GSTA1-1 and GSTA2-2 show high GSH peroxidase activity. GS
Probab=88.37 E-value=0.27 Score=36.62 Aligned_cols=31 Identities=13% Similarity=0.388 Sum_probs=27.0
Q ss_pred HHHHhHHHHhhC--CCCcccccceeeccccccc
Q psy10373 41 DQALGFLNTFLA--SSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 41 ~~~~~~l~~~~~--g~~y~~~~~l~l~~~~~~~ 71 (215)
...|+.|+..++ ++.|.+|..+|++|+-+..
T Consensus 45 ~~~l~~lE~~L~~~~~~~l~G~~~T~ADi~l~~ 77 (137)
T cd03208 45 NRYFPVFEKVLKSHGQDFLVGNKLSRADIHLLE 77 (137)
T ss_pred HHHHHHHHHHHHhCCCCeeeCCCCCHHHHHHHH
Confidence 466899999998 7889999999999988654
No 183
>cd03209 GST_C_Mu GST_C family, Class Mu subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The class Mu subfamily is composed of eukaryotic GSTs. In rats, at least six distinct class Mu subunits have been identified, with homologous genes in humans for five of these subunits. Class Mu GSTs can form homodimers and heterodimers, giving a large number of possible isoenzymes that can be formed, all with overlapping activities but different substrate specificities. They are the m
Probab=87.68 E-value=0.56 Score=33.84 Aligned_cols=38 Identities=34% Similarity=0.633 Sum_probs=31.3
Q ss_pred HHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 34 AEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 34 ~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
+...+.+.+.|+.|+..++++.|.+|..++++|+-+..
T Consensus 34 ~~~~~~~~~~l~~le~~L~~~~~l~G~~~T~aDi~l~~ 71 (121)
T cd03209 34 PDYLAKLPDKLKLFSDFLGDRPWFAGDKITYVDFLLYE 71 (121)
T ss_pred HHHHHHHHHHHHHHHHHhCCCCCcCCCCccHHHHHHHH
Confidence 33455667789999999998899999999999987654
No 184
>cd03181 GST_C_EFB1gamma GST_C family, Gamma subunit of Elongation Factor 1B (EFB1gamma) subfamily; EF1Bgamma is part of the eukaryotic translation elongation factor-1 (EF1) complex which plays a central role in the elongation cycle during protein biosynthesis. EF1 consists of two functionally distinct units, EF1A and EF1B. EF1A catalyzes the GTP-dependent binding of aminoacyl-tRNA to the ribosomal A site concomitant with the hydrolysis of GTP. The resulting inactive EF1A:GDP complex is recycled to the active GTP form by the guanine-nucleotide exchange factor EF1B, a complex composed of at least two subunits, alpha and gamma. Metazoan EFB1 contain a third subunit, beta. The EF1B gamma subunit contains a GST fold consisting of an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain. The GST-like domain of EF1Bgamma is believed to mediate the dimerization of the EF1 complex, which in yeast is a dimer of the heterotrimer EF1A:EF1Balpha:EF1Bgamma. In addition to its role
Probab=86.96 E-value=0.59 Score=33.47 Aligned_cols=37 Identities=30% Similarity=0.534 Sum_probs=31.7
Q ss_pred HHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 35 EKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 35 ~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
...+++.+.|+.|+..+++++|.+|..++++|+.+..
T Consensus 40 ~~~~~~~~~l~~le~~l~~~~~l~G~~~siaDi~l~~ 76 (123)
T cd03181 40 AALEELDRVLGVLEERLLKRTYLVGERLTLADIFVAG 76 (123)
T ss_pred HHHHHHHHHHHHHHHHHccCceeccCCccHHHHHHHH
Confidence 3456677789999999999999999999999988655
No 185
>cd03184 GST_C_Omega GST_C family, Class Omega subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Class Omega GSTs show little or no GSH-conjugating activity towards standard GST substrates. Instead, they catalyze the GSH dependent reduction of protein disulfides, dehydroascorbate and monomethylarsonate, activities which are more characteristic of glutaredoxins. They contain a conserved cysteine equivalent to the first cysteine in the CXXC motif of glutaredoxins, which is a re
Probab=85.57 E-value=0.7 Score=33.46 Aligned_cols=41 Identities=29% Similarity=0.364 Sum_probs=34.9
Q ss_pred CCCHHHHHHHHHHHhHHHHhhCC--CCcccccceeeccccccc
Q psy10373 31 PLDAEKAEKLDQALGFLNTFLAS--SPWVAGDNITIADCSIVA 71 (215)
Q Consensus 31 ~~~~~~~~~~~~~~~~l~~~~~g--~~y~~~~~l~l~~~~~~~ 71 (215)
+.-++..+.+.+.|+.|+..+++ ++|.+|..++++|+.+.+
T Consensus 28 ~~~~~~~~~~~~~l~~le~~L~~~~~~yl~G~~~t~aDi~~~~ 70 (124)
T cd03184 28 SDREEKKAELRSALENLEEELTKRGTPFFGGDSPGMVDYMIWP 70 (124)
T ss_pred ccchhhHHHHHHHHHHHHHHHHhcCCCCcCCCCccHHHHHhhH
Confidence 34457788999999999999984 799999999999998765
No 186
>cd03200 GST_C_JTV1 GST_C family, JTV-1 subfamily; composed of uncharacterized proteins with similarity to the translation product of the human JTV-1 gene. Human JTV-1, a gene of unknown function, initiates within the human PMS2 gene promoter, but is transcribed from the opposite strand. PMS2 encodes a protein involved in DNA mismatch repair and is mutated in a subset of patients with hereditary nonpolyposis colon cancer. It is unknown whether the expression of JTV-1 affects that of PMS2, or vice versa, as a result of their juxtaposition. JTV-1 is up-regulated while PMS2 is down-regulated in tumor cell spheroids that show increased resistance to anticancer cytotoxic drugs compared with tumor cell monolayers indicating that suppressed DNA mismatch repair may be a mechanism for multicellular resistance to alkylating agents.
Probab=85.47 E-value=0.68 Score=32.26 Aligned_cols=34 Identities=32% Similarity=0.525 Sum_probs=30.1
Q ss_pred HHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 38 EKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 38 ~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
+++++.++.|+..+++++|.+|..++++|+.+..
T Consensus 38 ~~~~~~l~~le~~L~~~~fl~Gd~~tiADi~l~~ 71 (96)
T cd03200 38 KEKAAVLRALNSALGRSPWLVGSEFTVADIVSWC 71 (96)
T ss_pred HHHHHHHHHHHHHHcCCCccCCCCCCHHHHHHHH
Confidence 5666889999999999999999999999988765
No 187
>cd03210 GST_C_Pi GST_C family, Class Pi subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Class Pi GST is a homodimeric eukaryotic protein. The human GSTP1 is mainly found in erythrocytes, kidney, placenta and fetal liver. It is involved in stress responses and in cellular proliferation pathways as an inhibitor of JNK (c-Jun N-terminal kinase). Following oxidative stress, monomeric GSTP1 dissociates from JNK and dimerizes, losing its ability to bind JNK and causing an incre
Probab=85.13 E-value=0.79 Score=33.36 Aligned_cols=38 Identities=21% Similarity=0.434 Sum_probs=31.2
Q ss_pred HHHHHHHHHHHhHHHHhhCC---CCcccccceeeccccccc
Q psy10373 34 AEKAEKLDQALGFLNTFLAS---SPWVAGDNITIADCSIVA 71 (215)
Q Consensus 34 ~~~~~~~~~~~~~l~~~~~g---~~y~~~~~l~l~~~~~~~ 71 (215)
+...+.+.+.|+.|+..+.+ ++|.+|..++++|+-+..
T Consensus 34 ~~~~~~~~~~l~~le~~L~~~~~~~~l~G~~~T~ADi~l~~ 74 (126)
T cd03210 34 DDYIKDLPEQLKPFEKLLSKNNGKGFIVGDKISFADYNLFD 74 (126)
T ss_pred HHHHHHHHHHHHHHHHHHHhCCCCCeeeCCCccHHHHHHHH
Confidence 44556678889999999973 589999999999987654
No 188
>cd03203 GST_C_Lambda GST_C family, Class Lambda subfamily; composed of plant-specific class Lambda GSTs. GSTs are cytosolic, usually dimeric, proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. The class Lambda subfamily was recently discovered, together with dehydroascorbate reductases (DHARs), as two outlying groups of the GST superfamily in Arabidopsis thaliana, which contain conserved active site cysteines. Characterization of recombinant A. thaliana proteins show that Lambda class GSTs are monomeric, similar
Probab=84.37 E-value=0.2 Score=36.38 Aligned_cols=45 Identities=24% Similarity=0.521 Sum_probs=29.3
Q ss_pred cccceeecCCCCCHHHHHHHHHHHhHHHHhhC---CCCcccccceeeccccccc
Q psy10373 21 KKYPHCFGGAPLDAEKAEKLDQALGFLNTFLA---SSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 21 ~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~~~---g~~y~~~~~l~l~~~~~~~ 71 (215)
+.+|.++.|.+ ++ .+++.++.|+.-++ +++|.+| .++++|+.+.+
T Consensus 21 ~~~~~~~~~~~-~~----~~~~~l~~Le~~L~~~~~~~fl~G-~~tlADi~l~~ 68 (120)
T cd03203 21 ALYSSLIKGDP-SA----EAAAALDYIENALSKFDDGPFFLG-QFSLVDIAYVP 68 (120)
T ss_pred HHHHHHhcCCc-hH----HHHHHHHHHHHHHHhcCCCCCcCC-CccHHHHHHHH
Confidence 34555565554 22 23445555555554 6899999 99999998766
No 189
>cd03204 GST_C_GDAP1 GST_C family, Ganglioside-induced differentiation-associated protein 1 (GDAP1) subfamily; GDAP1 was originally identified as a highly expressed gene at the differentiated stage of GD3 synthase-transfected cells. More recently, mutations in GDAP1 have been reported to cause both axonal and demyelinating autosomal-recessive Charcot-Marie-Tooth (CMT) type 4A neuropathy. CMT is characterized by slow and progressive weakness and atrophy of muscles. Sequence analysis of GDAP1 shows similarities and differences with GSTs; it appears to contain both N-terminal thioredoxin-fold and C-terminal alpha helical domains of GSTs, however, it also contains additional C-terminal transmembrane domains unlike GSTs. GDAP1 is mainly expressed in neuronal cells and is localized in the mitochondria through its transmembrane domains. It does not exhibit GST activity using standard substrates.
Probab=84.03 E-value=0.84 Score=32.93 Aligned_cols=39 Identities=26% Similarity=0.450 Sum_probs=32.6
Q ss_pred HHHHHHHHHHHhHHHHhhCCC----------Ccccccceeecccccccc
Q psy10373 34 AEKAEKLDQALGFLNTFLASS----------PWVAGDNITIADCSIVAS 72 (215)
Q Consensus 34 ~~~~~~~~~~~~~l~~~~~g~----------~y~~~~~l~l~~~~~~~~ 72 (215)
+...+.++..|+.|+..++++ +|.+|..++++|+.+...
T Consensus 28 ~~~~~~l~~~l~~LE~~L~~~~~~~~~~~~~~yL~Gd~~TlADi~l~~~ 76 (111)
T cd03204 28 KKILDELEMVLDQVEQELQRRKEETEEQKCQLWLCGDTFTLADISLGVT 76 (111)
T ss_pred HHHHHHHHHHHHHHHHHHHcCCcccccccCCCccCCCCCCHHHHHHHHH
Confidence 456678888899999999865 499999999999987653
No 190
>PF09635 MetRS-N: MetRS-N binding domain; InterPro: IPR018285 This entry represents the N-terminal domain of methionyl-tRNA synthetase (MetRS). This N-terminal appended domain mediates non-catalytic complex formation through its interaction with a domain in the tRNA aminoacylation cofactor Arc1p. The interacting domains of MetRS, GluRS (glutamyl-tRNA synthetase) and Arc1p form a ternary complex resembling a classical GST homo-dimer []. Domain-swapping between symmetrically related MetRS-N and Arc1p-N domains generates a 2:2 tetramer held together by van der Waals forces. This domain is necessary for formation of the aminoacyl-tRNA synthetase complex necessary for tRNA nuclear export and shuttling as part of the translational apparatus. ; PDB: 2HSN_A.
Probab=83.89 E-value=0.42 Score=34.97 Aligned_cols=21 Identities=29% Similarity=0.501 Sum_probs=11.6
Q ss_pred CCCeeeeeHHHHHHHHHHHhC
Q psy10373 93 NLLVLMFSSRAIIAYLAEQYG 113 (215)
Q Consensus 93 ddg~~L~ES~AI~~YL~~~~~ 113 (215)
-+|+.|+|++||++||.+-|.
T Consensus 43 ~~gF~L~e~NAIvrYl~nDF~ 63 (122)
T PF09635_consen 43 KSGFELFEPNAIVRYLANDFE 63 (122)
T ss_dssp S--S----HHHHHHHHTT--T
T ss_pred CCceEEecccHHHHHHHhhcC
Confidence 368999999999999998765
No 191
>cd03183 GST_C_Theta GST_C family, Class Theta subfamily; composed of eukaryotic class Theta GSTs and bacterial dichloromethane (DCM) dehalogenase. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Mammalian class Theta GSTs show poor GSH conjugating activity towards the standard substrates, CDNB and ethacrynic acid, differentiating them from other mammalian GSTs. GSTT1-1 shows similar cataytic activity as bacterial DCM dehalogenase, catalyzing the GSH-dependent hydrolytic dehalogenatio
Probab=83.57 E-value=1.1 Score=32.24 Aligned_cols=34 Identities=44% Similarity=0.811 Sum_probs=28.0
Q ss_pred HHHHHHHhHHHHh-hCCCCcccccceeeccccccc
Q psy10373 38 EKLDQALGFLNTF-LASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 38 ~~~~~~~~~l~~~-~~g~~y~~~~~l~l~~~~~~~ 71 (215)
+.+.++++.++.. +++++|.+|..++++|+.+..
T Consensus 48 ~~~~~~l~~le~~l~~~~~~l~Gd~~t~ADi~l~~ 82 (126)
T cd03183 48 ENLEESLDLLENYFLKDKPFLAGDEISIADLSAVC 82 (126)
T ss_pred HHHHHHHHHHHHHHhcCCCcccCCCCCHHHHHHHH
Confidence 4577889999985 566789999999999997554
No 192
>PF14497 GST_C_3: Glutathione S-transferase, C-terminal domain; PDB: 3AY8_A 2UZ8_B 1V2A_C 2HNL_A 2YV9_B 3H1N_A 3FR6_A 1Q4J_B 1PA3_B 1OKT_B ....
Probab=82.49 E-value=0.89 Score=31.47 Aligned_cols=41 Identities=29% Similarity=0.410 Sum_probs=32.7
Q ss_pred CCCHHHHHHHHHHHhHHHHhhCCCC--cccccceeeccccccc
Q psy10373 31 PLDAEKAEKLDQALGFLNTFLASSP--WVAGDNITIADCSIVA 71 (215)
Q Consensus 31 ~~~~~~~~~~~~~~~~l~~~~~g~~--y~~~~~l~l~~~~~~~ 71 (215)
.......+.+.+.++.|+..++.+. |.+|..+|++|+.+-.
T Consensus 31 ~~~~~~~~~~~~~l~~l~~~L~~~~~~~l~G~~~T~AD~~v~~ 73 (99)
T PF14497_consen 31 ASGDFSREELPKALKILEKHLAERGGDFLVGDKPTLADIAVFG 73 (99)
T ss_dssp CHHHHHHHHHHHHHHHHHHHHHHTSSSSSSSSS--HHHHHHHH
T ss_pred hhHHhhHHHHHHHHHHHHHHHHcCCCeeecCCCCCHHHHHHHH
Confidence 3456667889999999999999777 9999999999997655
No 193
>PF14834 GST_C_4: Glutathione S-transferase, C-terminal domain; PDB: 3BBY_A.
Probab=81.91 E-value=0.3 Score=35.43 Aligned_cols=77 Identities=16% Similarity=-0.011 Sum_probs=32.1
Q ss_pred CHHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCchH-HHHHHHHHcCC-CcEEE-eccCCCCCCCCHhHHhhCC
Q psy10373 122 DPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCR-AVQLAAAQIGV-PLNLK-HTDLMKGEHLTPEFLKLNP 198 (215)
Q Consensus 122 d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~-~~~~~~~~l~l-e~~L~-~~~fl~Gd~~T~ADi~l~P 198 (215)
|..+||+.++...|..+.+.+.=...-....+.+....+-+. ....+.+...+ +..|. +++|+-|+ +|+||..+.|
T Consensus 1 D~~~RArAR~vqAwlrSdf~~lR~Erpt~vvf~~~~~~pLs~~a~~~a~kL~~~a~~ll~~g~~~LFGe-wsIAD~dlA~ 79 (117)
T PF14834_consen 1 DRQERARARQVQAWLRSDFMALRQERPTNVVFRGARKPPLSEAAQAAAQKLIAVAERLLADGGPNLFGE-WSIADADLAL 79 (117)
T ss_dssp SHHHHHHHHHHHHHHHHS-HHHHHHS-THHHHS--------HHHHHHHHHHHHHHHHHTTT--SSTTSS---HHHHHHHH
T ss_pred CHHHHHHHHHHHHHHHcccHHHHhhCChhhhhcCCCCCCCCHHHHHHHHHHHHHHHHHhccCCCCcccc-chHHHHHHHH
Confidence 567899888877777777665311111111222322111111 11111111111 22222 56888885 9999998854
Q ss_pred C
Q psy10373 199 Q 199 (215)
Q Consensus 199 ~ 199 (215)
.
T Consensus 80 m 80 (117)
T PF14834_consen 80 M 80 (117)
T ss_dssp H
T ss_pred H
Confidence 3
No 194
>KOG1147|consensus
Probab=79.48 E-value=0.52 Score=42.95 Aligned_cols=83 Identities=12% Similarity=0.086 Sum_probs=51.4
Q ss_pred CCeeeeeHHHHHHHHHHHhCCCCCCCCCCHHHHHHHHHHHhhhccccchhcccceeeccccCCCCCCchHHHHHHHHHcC
Q psy10373 94 LLVLMFSSRAIIAYLAEQYGKDDSLYPKDPKARGIVNQRLYFDIGTLYQRFADYFMTIDFYYVPGSAPCRAVQLAAAQIG 173 (215)
Q Consensus 94 dg~~L~ES~AI~~YL~~~~~~~~~L~p~d~~era~v~~wl~~~~~~l~~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~l~ 173 (215)
+|..|.-+..+..|.+..-.....|++.+ .++.+|+.|+.|+...- .. ..-.....
T Consensus 44 d~~~l~~a~~~~~~~~~~~~~~~~lf~~~-~d~~~vd~w~~~s~~~~-------------------~~----~~s~~~~~ 99 (712)
T KOG1147|consen 44 DGRKLNGATEPVVYSAALAKADPKLFGNN-IDRSQVDHWVSFSSTFS-------------------FD----EISSSLSE 99 (712)
T ss_pred ccccccCCccchhhhhhhcccCHhHcCCc-ccHHHHHHHHHHhhhcc-------------------hH----HHHHHHHH
Confidence 34455555556666553333333488877 78999999999876310 00 00111112
Q ss_pred CCcEEEeccCCCCCCCCHhHHhhCCCCcc
Q psy10373 174 VPLNLKHTDLMKGEHLTPEFLKLNPQHTV 202 (215)
Q Consensus 174 le~~L~~~~fl~Gd~~T~ADi~l~P~g~l 202 (215)
++..|.-+.|++|..+|+||+++ ++.+
T Consensus 100 ld~~l~~~t~lvg~sls~Ad~ai--w~~l 126 (712)
T KOG1147|consen 100 LDKFLVLRTFLVGNSLSIADFAI--WGAL 126 (712)
T ss_pred HHhhhhHHHHhhccchhHHHHHH--HHHH
Confidence 45666678899999999999998 5543
No 195
>PF11287 DUF3088: Protein of unknown function (DUF3088); InterPro: IPR021439 This family of proteins with unknown function appears to be restricted to Proteobacteria.
Probab=78.78 E-value=5.2 Score=28.86 Aligned_cols=19 Identities=37% Similarity=0.539 Sum_probs=16.9
Q ss_pred CeeeeeHHHHHHHHHHHhC
Q psy10373 95 LVLMFSSRAIIAYLAEQYG 113 (215)
Q Consensus 95 g~~L~ES~AI~~YL~~~~~ 113 (215)
-..|.+...|++||+++|+
T Consensus 90 ~rfi~d~~~I~~~La~r~g 108 (112)
T PF11287_consen 90 RRFIDDPRRILRYLAERHG 108 (112)
T ss_pred eEEeCCHHHHHHHHHHHcC
Confidence 3578899999999999997
No 196
>TIGR02190 GlrX-dom Glutaredoxin-family domain. This C-terminal domain with homology to glutaredoxin is fused to an N-terminal peroxiredoxin-like domain.
Probab=77.51 E-value=0.78 Score=30.60 Aligned_cols=25 Identities=32% Similarity=0.198 Sum_probs=22.2
Q ss_pred CCcceecC--CCCeeeeeHHHHHHHHH
Q psy10373 85 ASQTRHPG--NLLVLMFSSRAIIAYLA 109 (215)
Q Consensus 85 ~P~GkVPv--ddg~~L~ES~AI~~YL~ 109 (215)
++..+||+ .||..|.++..|.+||+
T Consensus 53 ~g~~~vP~i~i~g~~igG~~~l~~~l~ 79 (79)
T TIGR02190 53 TGATTVPQVFIGGKLIGGSDELEAYLA 79 (79)
T ss_pred HCCCCcCeEEECCEEEcCHHHHHHHhC
Confidence 36789999 88999999999999985
No 197
>cd03192 GST_C_Sigma_like GST_C family, Class Sigma_like; composed of GSTs belonging to class Sigma and similar proteins, including GSTs from class Mu, Pi, and Alpha. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Vertebrate class Sigma GSTs are characterized as GSH-dependent hematopoietic prostaglandin (PG) D synthases and are responsible for the production of PGD2 by catalyzing the isomerization of PGH2. The functions of PGD2 include the maintenance of body temperature, inhibition
Probab=76.64 E-value=1.9 Score=29.82 Aligned_cols=39 Identities=23% Similarity=0.309 Sum_probs=31.4
Q ss_pred CHHHHHHHHHHHhHHHHhhCC--CCcccccceeeccccccc
Q psy10373 33 DAEKAEKLDQALGFLNTFLAS--SPWVAGDNITIADCSIVA 71 (215)
Q Consensus 33 ~~~~~~~~~~~~~~l~~~~~g--~~y~~~~~l~l~~~~~~~ 71 (215)
.....+.+.+.++.|+..+++ ++|..|..++++|+-+..
T Consensus 37 ~~~~~~~~~~~l~~le~~l~~~~~~~~~G~~~s~aDi~l~~ 77 (104)
T cd03192 37 KEFLKEAIPKYLKKLEKILKENGGGYLVGDKLTWADLVVFD 77 (104)
T ss_pred HHHHHHhhHHHHHHHHHHHHHcCCCeeeCCCccHHHHHHHH
Confidence 334455666779999999986 899999999999988655
No 198
>cd03194 GST_C_3 GST_C family, unknown subfamily 3; composed of uncharacterized proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=76.31 E-value=3.2 Score=29.63 Aligned_cols=39 Identities=23% Similarity=0.386 Sum_probs=30.6
Q ss_pred CCHHHHHHHHHHHhHHHHhhC---CCCcccccceeeccccccc
Q psy10373 32 LDAEKAEKLDQALGFLNTFLA---SSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 32 ~~~~~~~~~~~~~~~l~~~~~---g~~y~~~~~l~l~~~~~~~ 71 (215)
..+.-.+.+++.++.++..++ |++|.+|. ++++|+.+..
T Consensus 38 ~~~~~~~~~~~~~~~le~~l~~~~~~~yl~Gd-~T~ADi~l~~ 79 (114)
T cd03194 38 LSEAVQADIARIEAIWAECLARFQGGPFLFGD-FSIADAFFAP 79 (114)
T ss_pred CCHHHHHHHHHHHHHHHHHHHHcCCCCCCCCC-CcHHHHHHHH
Confidence 455555667777888888874 67899999 9999988755
No 199
>cd03191 GST_C_Zeta GST_C family, Class Zeta subfamily; GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain. Class Zeta GSTs, also known as maleylacetoacetate (MAA) isomerases, catalyze the isomerization of MAA to fumarylacetoacetate, the penultimate step in tyrosine/phenylalanine catabolism, using GSH as a cofactor. They show little GSH-conjugating activity towards traditional GST substrates, but display modest GSH peroxidase activity. They are also implicated in the detoxification of th
Probab=75.47 E-value=2.2 Score=30.45 Aligned_cols=34 Identities=26% Similarity=0.439 Sum_probs=29.1
Q ss_pred HHHHHHHhHHHHhhC--CCCcccccceeeccccccc
Q psy10373 38 EKLDQALGFLNTFLA--SSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 38 ~~~~~~~~~l~~~~~--g~~y~~~~~l~l~~~~~~~ 71 (215)
+.+.+.|+.|+..++ ++.|.+|..++++|+.+-+
T Consensus 47 ~~~~~~l~~le~~L~~~~~~~l~G~~~t~ADi~~~~ 82 (121)
T cd03191 47 HWIARGFAALEKLLAQTAGKFCFGDEPTLADICLVP 82 (121)
T ss_pred HHHHHHHHHHHHHHHhcCCCeecCCcCCHHHHHHHH
Confidence 457788999999998 4579999999999988765
No 200
>cd03212 GST_C_Metaxin1_3 GST_C family, Metaxin subfamily, Metaxin 1-like proteins; composed of metaxins 1 and 3, and similar proteins. Mammalian metaxin (or metaxin 1) is a component of the preprotein import complex of the mitochondrial outer membrane. Metaxin extends to the cytosol and is anchored to the mitochondrial membrane through its C-terminal domain. In mice, metaxin is required for embryonic development. Like the murine gene, the human metaxin gene is located downstream to the glucocerebrosidase (GBA) pseudogene and is convergently transcribed. Inherited deficiency of GBA results in Gaucher disease, which presents many diverse clinical phenotypes. Alterations in the metaxin gene, in addition to GBA mutations, may be associated with Gaucher disease. Genome sequencing shows that a third metaxin gene also exists in zebrafish, Xenopus, chicken, and mammals.
Probab=73.48 E-value=3.8 Score=30.55 Aligned_cols=39 Identities=26% Similarity=0.342 Sum_probs=32.7
Q ss_pred CCHHHHHHHHHHHhHHHHhhCCCCcccccceeecccccc
Q psy10373 32 LDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIV 70 (215)
Q Consensus 32 ~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~ 70 (215)
..++.++...+.++.|+..+++++|..|...+.+|+.+-
T Consensus 61 ~~~~~~~~a~~~l~~l~~~L~~~~~~~Gd~~t~~D~~~~ 99 (137)
T cd03212 61 VEAEIYRDAKECLNLLSQRLGESQFFFGDTPTSLDALVF 99 (137)
T ss_pred hHHHHHHHHHHHHHHHHHHHCCCCcCCCCCCcHHHHHHH
Confidence 355566777888999999999999999999999997753
No 201
>cd03195 GST_C_4 GST_C family, unknown subfamily 4; composed of uncharacterized proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=70.74 E-value=5.9 Score=28.19 Aligned_cols=39 Identities=15% Similarity=0.267 Sum_probs=32.1
Q ss_pred CCHHHHHHHHHHHhHHHHhhC-CCCcccccceeeccccccc
Q psy10373 32 LDAEKAEKLDQALGFLNTFLA-SSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 32 ~~~~~~~~~~~~~~~l~~~~~-g~~y~~~~~l~l~~~~~~~ 71 (215)
..+.-.+.+++.++.++..++ |++|.+| .++++|+-+-.
T Consensus 39 ~~~~~~~~~~~~~~~le~~l~~~~~~l~G-~fSiAD~~l~~ 78 (114)
T cd03195 39 LSEAAQAAAEKLIAVAEALLPPGAANLFG-EWCIADTDLAL 78 (114)
T ss_pred CCHHHHHHHHHHHHHHHHHHhcCCCcccC-CccHHHHHHHH
Confidence 445667778888999999996 7689999 69999988755
No 202
>cd03211 GST_C_Metaxin2 GST_C family, Metaxin subfamily, Metaxin 2; a metaxin 1 binding protein identified through a yeast two-hybrid system using metaxin 1 as the bait. Metaxin 2 shares sequence similarity with metaxin 1 but does not contain a C-terminal mitochondrial outer membrane signal-anchor domain. It associates with mitochondrial membranes through its interaction with metaxin 1, which is a component of the mitochondrial preprotein import complex of the outer membrane. The biological function of metaxin 2 is unknown. It is likely that it also plays a role in protein translocation into the mitochondria. However, this has not been experimentally validated. In a recent proteomics study, it has been shown that metaxin 2 is overexpressed in response to lipopolysaccharide-induced liver injury.
Probab=68.79 E-value=5.6 Score=29.07 Aligned_cols=41 Identities=24% Similarity=0.285 Sum_probs=34.8
Q ss_pred CCCHHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 31 PLDAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 31 ~~~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
-..+|.+..+++.++.|+.+|++++|..|...+.+|..+-.
T Consensus 53 ~~~ee~~~~~~~~l~aLs~~Lg~~~~l~Gd~pT~~Da~vf~ 93 (126)
T cd03211 53 KTLDQVIEEVDQCCQALSQRLGTQPYFFGDQPTELDALVFG 93 (126)
T ss_pred CCHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCcHHHHHHHH
Confidence 35567777888889999999999999999999999987643
No 203
>cd03205 GST_C_6 GST_C family, unknown subfamily 6; composed of uncharacterized bacterial proteins with similarity to GSTs. GSTs are cytosolic dimeric proteins involved in cellular detoxification by catalyzing the conjugation of glutathione (GSH) with a wide range of endogenous and xenobiotic alkylating agents, including carcinogens, therapeutic drugs, environmental toxins, and products of oxidative stress. GSTs also show GSH peroxidase activity and are involved in the synthesis of prostaglandins and leukotrienes. The GST fold contains an N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain, with an active site located in a cleft between the two domains. GSH binds to the N-terminal domain while the hydrophobic substrate occupies a pocket in the C-terminal domain.
Probab=58.89 E-value=9.2 Score=26.15 Aligned_cols=36 Identities=28% Similarity=0.409 Sum_probs=29.4
Q ss_pred CHHHHHHHHHHHhHHHHhhCCCCcccccceeeccccccc
Q psy10373 33 DAEKAEKLDQALGFLNTFLASSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 33 ~~~~~~~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~~ 71 (215)
-....+.+++.|+.|+..+.+++| ..++++|+.+..
T Consensus 35 ~~~~~~~~~~~l~~le~~L~~~~~---d~~TlADi~l~~ 70 (98)
T cd03205 35 LERQRGKIERALDALEAELAKLPL---DPLDLADIAVAC 70 (98)
T ss_pred HHHHHHHHHHHHHHHHHhhhhCCC---CCCCHHHHHHHH
Confidence 344567788889999999998888 889999988655
No 204
>KOG2903|consensus
Probab=58.67 E-value=11 Score=31.52 Aligned_cols=47 Identities=21% Similarity=0.291 Sum_probs=37.7
Q ss_pred CCCCCHHHHHHHHHHHhHHHHhhCCCC--cccccceeecccccccccce
Q psy10373 29 GAPLDAEKAEKLDQALGFLNTFLASSP--WVAGDNITIADCSIVASLST 75 (215)
Q Consensus 29 ~~~~~~~~~~~~~~~~~~l~~~~~g~~--y~~~~~l~l~~~~~~~~~~~ 75 (215)
++++=+++.+.+=|+|.=+|+.|..|. |..|..||.+|+-+..++.-
T Consensus 197 ~~e~Ye~~V~~lfe~LDr~E~vL~~~~~~f~~G~~LTeaDirLy~TiIR 245 (319)
T KOG2903|consen 197 KQEAYEEEVNQLFEALDRCEDVLGKNRKYFLCGDTLTEADIRLYTTIIR 245 (319)
T ss_pred ccchHHHHHHHHHHHHHHHHHHHhcccceEeeccccchhheeeeeeEEe
Confidence 335556677778888999999999887 89999999999998765433
No 205
>cd03078 GST_N_Metaxin1_like GST_N family, Metaxin subfamily, Metaxin 1-like proteins; composed of metaxins 1 and 3, and similar proteins including Tom37 from fungi. Mammalian metaxin (or metaxin 1) and the fungal protein Tom37 are components of preprotein import complexes of the mitochondrial outer membrane. Metaxin extends to the cytosol and is anchored to the mitochondrial membrane through its C-terminal domain. In mice, metaxin is required for embryonic development. Like the murine gene, the human metaxin gene is located downstream to the glucocerebrosidase (GBA) pseudogene and is convergently transcribed. Inherited deficiency of GBA results in Gaucher disease, which presents many diverse clinical phenotypes. Alterations in the metaxin gene, in addition to GBA mutations, may be associated with Gaucher disease. Genome sequencing shows that a third metaxin gene also exists in zebrafish, Xenopus, chicken and mammals.
Probab=56.28 E-value=9.8 Score=24.95 Aligned_cols=21 Identities=19% Similarity=0.308 Sum_probs=17.5
Q ss_pred hhCCCCccceEEeCCeeeecC
Q psy10373 195 KLNPQHTVPTMDDNGYTLSER 215 (215)
Q Consensus 195 ~l~P~g~lp~l~~~G~~l~es 215 (215)
..+|.|++|+++++|..+.+|
T Consensus 42 ~~sp~gkLP~l~~~~~~i~d~ 62 (73)
T cd03078 42 WRSPTGKLPALLTSGTKISGP 62 (73)
T ss_pred CCCCCCccCEEEECCEEecCh
Confidence 467899999999999887765
No 206
>cd02976 NrdH NrdH-redoxin (NrdH) family; NrdH is a small monomeric protein with a conserved redox active CXXC motif within a TRX fold, characterized by a glutaredoxin (GRX)-like sequence and TRX-like activity profile. In vitro, it displays protein disulfide reductase activity that is dependent on TRX reductase, not glutathione (GSH). It is part of the NrdHIEF operon, where NrdEF codes for class Ib ribonucleotide reductase (RNR-Ib), an efficient enzyme at low oxygen levels. Under these conditions when GSH is mostly conjugated to spermidine, NrdH can still function and act as a hydrogen donor for RNR-Ib. It has been suggested that the NrdHEF system may be the oldest RNR reducing system, capable of functioning in a microaerophilic environment, where GSH was not yet available. NrdH from Corynebacterium ammoniagenes can form domain-swapped dimers, although it is unknown if this happens in vivo. Domain-swapped dimerization, which results in the blocking of the TRX reductase binding site, cou
Probab=49.09 E-value=51 Score=20.31 Aligned_cols=56 Identities=23% Similarity=0.290 Sum_probs=31.0
Q ss_pred CCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeee
Q psy10373 155 YVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTL 212 (215)
Q Consensus 155 ~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l 212 (215)
.....+.+.+........+++......+- +.+.......++|.+.+|++..+|..+
T Consensus 6 ~~~~c~~c~~~~~~l~~~~i~~~~~~i~~--~~~~~~~~~~~~~~~~vP~i~~~~~~i 61 (73)
T cd02976 6 TKPDCPYCKATKRFLDERGIPFEEVDVDE--DPEALEELKKLNGYRSVPVVVIGDEHL 61 (73)
T ss_pred eCCCChhHHHHHHHHHHCCCCeEEEeCCC--CHHHHHHHHHHcCCcccCEEEECCEEE
Confidence 33334555555566666666554333211 222222334567888999998877554
No 207
>PRK10638 glutaredoxin 3; Provisional
Probab=44.89 E-value=59 Score=21.41 Aligned_cols=58 Identities=17% Similarity=0.206 Sum_probs=37.4
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeee
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTL 212 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l 212 (215)
++..+..+.+.+++......+++....+.+ ..+....+...+++...+|++..+|..+
T Consensus 6 ly~~~~Cp~C~~a~~~L~~~gi~y~~~dv~--~~~~~~~~l~~~~g~~~vP~i~~~g~~i 63 (83)
T PRK10638 6 IYTKATCPFCHRAKALLNSKGVSFQEIPID--GDAAKREEMIKRSGRTTVPQIFIDAQHI 63 (83)
T ss_pred EEECCCChhHHHHHHHHHHcCCCcEEEECC--CCHHHHHHHHHHhCCCCcCEEEECCEEE
Confidence 455555677777777888888876654432 1122333456788888999998766543
No 208
>cd03197 GST_C_mPGES2 GST_C family; microsomal Prostaglandin E synthase Type 2 (mPGES2) subfamily; mPGES2 is a membrane-anchored dimeric protein containing a CXXC motif which catalyzes the isomerization of PGH2 to PGE2. Unlike cytosolic PGE synthase (cPGES) and microsomal PGES Type 1 (mPGES1), mPGES2 does not require glutathione (GSH) for its activity, although its catalytic rate is increased two- to four-fold in the presence of DTT, GSH, or other thiol compounds. PGE2 is widely distributed in various tissues and is implicated in the sleep/wake cycle, relaxation/contraction of smooth muscle, excretion of sodium ions, maintenance of body temperature, and mediation of inflammation. mPGES2 contains an N-terminal hydrophobic domain which is membrane associated and a C-terminal soluble domain with a GST-like structure. The C-terminus contains two structural domains a N-terminal thioredoxin-fold domain and a C-terminal alpha helical domain. The GST active site is located in a cleft between t
Probab=38.18 E-value=20 Score=27.26 Aligned_cols=41 Identities=20% Similarity=0.287 Sum_probs=29.3
Q ss_pred HHHHHHHHHH-hHHHHhhCCCCcccccceeecccccccccce
Q psy10373 35 EKAEKLDQAL-GFLNTFLASSPWVAGDNITIADCSIVASLST 75 (215)
Q Consensus 35 ~~~~~~~~~~-~~l~~~~~g~~y~~~~~l~l~~~~~~~~~~~ 75 (215)
+.-+.|.+++ ++....+.++.|.+|..++|+|+++...++.
T Consensus 79 D~r~~L~~a~~~w~~~~~~~~~FlaGd~ptIADisvyg~l~s 120 (149)
T cd03197 79 DVREWLYDALNTWVAALGKDRQFHGGSKPNLADLAVYGVLRS 120 (149)
T ss_pred hHHHHHHHHHHHHHHHhcCCCCccCCCCCCHHHHHHHHHHHH
Confidence 3344555554 5566656678999999999999998775544
No 209
>cd03029 GRX_hybridPRX5 Glutaredoxin (GRX) family, PRX5 hybrid subfamily; composed of hybrid proteins containing peroxiredoxin (PRX) and GRX domains, which is found in some pathogenic bacteria and cyanobacteria. PRXs are thiol-specific antioxidant (TSA) proteins that confer a protective antioxidant role in cells through their peroxidase activity in which hydrogen peroxide, peroxynitrate, and organic hydroperoxides are reduced and detoxified using reducing equivalents derived from either thioredoxin, glutathione, trypanothione and AhpF. GRX is a glutathione (GSH) dependent reductase, catalyzing the disulfide reduction of target proteins. PRX-GRX hybrid proteins from Haemophilus influenza and Neisseria meningitis exhibit GSH-dependent peroxidase activity. The flow of reducing equivalents in the catalytic cycle of the hybrid protein goes from NADPH - GSH reductase - GSH - GRX domain of hybrid - PRX domain of hybrid - peroxide substrate.
Probab=38.11 E-value=21 Score=22.82 Aligned_cols=24 Identities=21% Similarity=0.087 Sum_probs=20.6
Q ss_pred CcceecC--CCCeeeeeHHHHHHHHH
Q psy10373 86 SQTRHPG--NLLVLMFSSRAIIAYLA 109 (215)
Q Consensus 86 P~GkVPv--ddg~~L~ES~AI~~YL~ 109 (215)
...+||+ .||..+..+..|.+||+
T Consensus 47 g~~~vP~ifi~g~~igg~~~l~~~l~ 72 (72)
T cd03029 47 GAMTVPQVFIDGELIGGSDDLEKYFA 72 (72)
T ss_pred CCCCcCeEEECCEEEeCHHHHHHHhC
Confidence 5568999 78899999999999984
No 210
>PLN02907 glutamate-tRNA ligase
Probab=37.76 E-value=20 Score=34.44 Aligned_cols=32 Identities=31% Similarity=0.587 Sum_probs=28.1
Q ss_pred HHHHHHhHHHHhhCCCCcccccceeecccccc
Q psy10373 39 KLDQALGFLNTFLASSPWVAGDNITIADCSIV 70 (215)
Q Consensus 39 ~~~~~~~~l~~~~~g~~y~~~~~l~l~~~~~~ 70 (215)
.+++.++.|+..|++++|.+|..++++|+.+-
T Consensus 94 ~l~~~L~~LE~~L~~rtYLvGd~lTLADIaL~ 125 (722)
T PLN02907 94 EFENACEYVDGYLASRTFLVGYSLTIADIAIW 125 (722)
T ss_pred HHHHHHHHHHHHhccCCeecCCCCCHHHHHHH
Confidence 45677999999999999999999999998853
No 211
>PF09314 DUF1972: Domain of unknown function (DUF1972); InterPro: IPR015393 This domain is functionally uncharacterised and found in bacterial glycosyltransferases and rhamnosyltransferases.
Probab=33.80 E-value=32 Score=27.13 Aligned_cols=28 Identities=29% Similarity=0.481 Sum_probs=22.7
Q ss_pred CCCeeeeeHHHHHHHHHHHhC-CCCCCCC
Q psy10373 93 NLLVLMFSSRAIIAYLAEQYG-KDDSLYP 120 (215)
Q Consensus 93 ddg~~L~ES~AI~~YL~~~~~-~~~~L~p 120 (215)
..+..|++|..|.+|+.++|+ ....+.|
T Consensus 153 ~ad~lIaDs~~I~~y~~~~y~~~~s~~Ia 181 (185)
T PF09314_consen 153 YADRLIADSKGIQDYIKERYGRKKSTFIA 181 (185)
T ss_pred hCCEEEEcCHHHHHHHHHHcCCCCcEEec
Confidence 567899999999999999998 4444444
No 212
>KOG1695|consensus
Probab=33.22 E-value=26 Score=28.19 Aligned_cols=33 Identities=27% Similarity=0.386 Sum_probs=27.7
Q ss_pred HHHHHHhHHHHhhC--CCCcccccceeeccccccc
Q psy10373 39 KLDQALGFLNTFLA--SSPWVAGDNITIADCSIVA 71 (215)
Q Consensus 39 ~~~~~~~~l~~~~~--g~~y~~~~~l~l~~~~~~~ 71 (215)
..+.-++.++.++. |+-|.+|+.+|.+|+-+..
T Consensus 127 a~~~~~~~~~~~L~~~~sgflvGd~lT~aDl~i~e 161 (206)
T KOG1695|consen 127 AKPKYFKILEKILKKNKSGFLVGDKLTWADLVIAE 161 (206)
T ss_pred chHHHHHHHHHHHHhCCCCeeecCcccHHHHHHHH
Confidence 45556899999999 7789999999999988755
No 213
>KOG1422|consensus
Probab=32.08 E-value=32 Score=27.79 Aligned_cols=90 Identities=23% Similarity=0.412 Sum_probs=58.3
Q ss_pred CCHHHHHHHHHHHhHHHHhhCC---CCcccccceeecccccccccceeeccCCcCCCCcceecCCCCeeeeeH-HHHHHH
Q psy10373 32 LDAEKAEKLDQALGFLNTFLAS---SPWVAGDNITIADCSIVASLSTIECSTSDHMASQTRHPGNLLVLMFSS-RAIIAY 107 (215)
Q Consensus 32 ~~~~~~~~~~~~~~~l~~~~~g---~~y~~~~~l~l~~~~~~~~~~~~~~~~~e~~~P~GkVPvddg~~L~ES-~AI~~Y 107 (215)
.+..-.+.+-+.|+-|+..|+- .++..|+.++++|+++.+.+..+....+-.+| ..|.+| ..+-+|
T Consensus 120 ~n~~~e~~Ll~~L~~Ld~yL~sp~~~~Fl~Gd~lt~aDcsLlPKL~~i~va~k~yk~----------~~IP~~lt~V~rY 189 (221)
T KOG1422|consen 120 ANDGLEKALLKELEKLDDYLKSPSRRKFLDGDKLTLADCSLLPKLHHIKVAAKHYKN----------FEIPASLTGVWRY 189 (221)
T ss_pred ccchHHHHHHHHHHHHHHHhcCccCCccccCCeeeeehhhhchhHHHHHHHHHHhcC----------CCCchhhhHHHHH
Confidence 4444556677778888888883 58999999999999999877776665554433 222222 457888
Q ss_pred HHHHhCCCCCCCCCCHHHHHHHHHH
Q psy10373 108 LAEQYGKDDSLYPKDPKARGIVNQR 132 (215)
Q Consensus 108 L~~~~~~~~~L~p~d~~era~v~~w 132 (215)
|-..|.... +--.-|..+-.+.-|
T Consensus 190 l~~~ya~d~-F~~tcp~d~ei~~~y 213 (221)
T KOG1422|consen 190 LKNAYARDE-FTNTCPADQEIILAY 213 (221)
T ss_pred HHHHHhHHH-hhcCCchHHHHHHhh
Confidence 888775321 322344444444444
No 214
>KOG4103|consensus
Probab=31.87 E-value=28 Score=24.43 Aligned_cols=48 Identities=17% Similarity=0.125 Sum_probs=35.5
Q ss_pred hhhcccCccCcccceeecCCCCCHHHHHHHHHHHhHHHHhhCCCCccc
Q psy10373 11 YRYLRPDTESKKYPHCFGGAPLDAEKAEKLDQALGFLNTFLASSPWVA 58 (215)
Q Consensus 11 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~~~g~~y~~ 58 (215)
++|-||..++..+=.=.+=.|+.++++.++...+.=+-.+..+.+||-
T Consensus 20 ~~~~~p~l~~~~~y~K~eL~PPt~Ad~pai~q~l~~~~~~~~t~~~Kn 67 (103)
T KOG4103|consen 20 LTYAKPRLAIFWKYAKVELAPPTPADIPAIKQDLAKLKKFAQTGCYKN 67 (103)
T ss_pred HHhcCchHHHHHHHHhcccCCCChhhHHHHHHHHHHhHHHHhhhhhhh
Confidence 455567766332222234458999999999999999999999999986
No 215
>cd08540 SAM_PNT-ERG Sterile alpha motif (SAM)/Pointed domain of ERG transcription factor. SAM Pointed domain of ERG subfamily of ETS transcriptional regulators is a putative protein-protein interaction domain. It may participate in formation of homodimers or heterodimers with ETS-2, Fli-1, ER81, and Pu-1. However, dimeric forms are inactive and SAM Pointed domain is not essential for dimerization, since ER81 and Pu-1 do not have it. In mouse, a regulator of this type binds the ESET histone H3-specific methyltransferase (human homolog is SETDB1), followed by modification of local chromatin structure through histone methylation. ERG regulators are involved in endothelial cell differentiation, bone morphogenesis and neural crest development. The Erg gene is a proto-oncogene. It is a target of chromosomal translocations resulting in fusions with new neighboring genes. Chimeric proteins were found in solid tumors such as myeloid leukemia or Ewing's sarcoma. Members of this subfamily are po
Probab=29.60 E-value=40 Score=22.49 Aligned_cols=22 Identities=27% Similarity=0.356 Sum_probs=16.2
Q ss_pred CCCHHH--HHHHHHHHhhhccccc
Q psy10373 120 PKDPKA--RGIVNQRLYFDIGTLY 141 (215)
Q Consensus 120 p~d~~e--ra~v~~wl~~~~~~l~ 141 (215)
|.||.+ +.+|.+|+.|+...+.
T Consensus 2 P~DP~~Wt~~~V~~WL~Wa~~ef~ 25 (75)
T cd08540 2 PADPTLWSTDHVRQWLEWAVKEYG 25 (75)
T ss_pred CCChhhcCHHHHHHHHHHHHHHhC
Confidence 455544 7889999999876653
No 216
>cd08542 SAM_PNT-ETS-1 Sterile alpha motif (SAM)/Pointed domain of ETS-1. SAM Pointed domain of ETS-1 subfamily of ETS transcriptional activators is a protein-protein interaction domain. The ETS-1 activator is regulated by phosphorylation. It contains a docking site for the ERK2 MAP (Mitogen Activated Protein) kinase, while the ERK2 phosphorylation site is located in the N-terminal disordered region upstream of the SAM Pointed domain. Mutations of the kinase docking site residues inhibit phosphorylation. ETS-1 activators play role in a number of different physiological processes, and they are expressed during embryonic development, including blood vessel formation, hematopoietic, lymphoid, neuronal and osteogenic differentiation. The Ets-1 gene is a proto-oncogene involved in progression of different tumors (including breast cancer, meningioma, and prostate cancer). Members of this subfamily are potential molecular targets for selective cancer therapy.
Probab=28.57 E-value=44 Score=23.06 Aligned_cols=24 Identities=21% Similarity=0.404 Sum_probs=18.8
Q ss_pred CCCCCHHH--HHHHHHHHhhhccccc
Q psy10373 118 LYPKDPKA--RGIVNQRLYFDIGTLY 141 (215)
Q Consensus 118 L~p~d~~e--ra~v~~wl~~~~~~l~ 141 (215)
-.|.||.. +..|.+|+.|+...+.
T Consensus 14 ~Ip~DP~~Wt~~~V~~WL~Wa~~ef~ 39 (88)
T cd08542 14 GIPKDPRQWTETHVRDWVMWAVNEFS 39 (88)
T ss_pred CCCCChhhCCHHHHHHHHHHHHHHcC
Confidence 46778866 7889999999886653
No 217
>cd08531 SAM_PNT-ERG_FLI-1 Sterile alpha motif (SAM)/Pointed domain of ERG (Ets related gene) and FLI-1 (Friend leukemia integration 1) transcription factors. SAM Pointed domain of ERG/FLI-1 subfamily of ETS transcriptional regulators is a putative protein-protein interaction domain. The ERG and FLI regulators are involved in endothelial cell differentiation, bone morphogenesis and neural crest development. They are proto-oncogenes implicated in cancer development such as myeloid leukemia, Ewing's sarcoma and erythroleukemia. Members of this subfamily are potential targets for cancer therapy.
Probab=28.48 E-value=43 Score=22.30 Aligned_cols=22 Identities=32% Similarity=0.416 Sum_probs=16.2
Q ss_pred CCCHHH--HHHHHHHHhhhccccc
Q psy10373 120 PKDPKA--RGIVNQRLYFDIGTLY 141 (215)
Q Consensus 120 p~d~~e--ra~v~~wl~~~~~~l~ 141 (215)
|.||.+ +..|.+|+.|....+.
T Consensus 2 P~DP~~Wt~~~V~~WL~Wa~~ef~ 25 (75)
T cd08531 2 PADPTLWTREHVRQWLEWAVKEYG 25 (75)
T ss_pred CCChhhcCHHHHHHHHHHHHHHcC
Confidence 555544 7889999999876653
No 218
>cd08533 SAM_PNT-ETS-1,2 Sterile alpha motif (SAM)/Pointed domain of ETS-1,2 family. SAM Pointed domain of ETS-1,2 family of transcriptional activators is a protein-protein interaction domain. It carries a kinase docking site and mediates interaction between ETS transcriptional activators and protein kinases. This group of transcriptional factors is involved in the Ras/MAP kinase signaling pathway. MAP kinases phosphorylate the transcription factors. Phosphorylated factors then recruit coactivators and enhance transactivation. Members of this group play a role in regulation of different embryonic developmental processes. ETS-1,2 transcriptional activators are proto-oncogenes involved in malignant transformation and tumor progression. They are potential molecular targets for selective cancer therapy.
Probab=27.57 E-value=44 Score=22.00 Aligned_cols=22 Identities=32% Similarity=0.566 Sum_probs=15.4
Q ss_pred CCCHHH--HHHHHHHHhhhccccc
Q psy10373 120 PKDPKA--RGIVNQRLYFDIGTLY 141 (215)
Q Consensus 120 p~d~~e--ra~v~~wl~~~~~~l~ 141 (215)
|.||.. +..|.+|+.|+...+.
T Consensus 1 P~DP~~Wt~~~V~~WL~Wa~~ef~ 24 (71)
T cd08533 1 PKDPRLWTETHVRQWLLWAVNEFS 24 (71)
T ss_pred CcChhhCCHHHHHHHHHHHHHHcC
Confidence 344443 6889999999886553
No 219
>COG0320 LipA Lipoate synthase [Coenzyme metabolism]
Probab=25.40 E-value=55 Score=27.70 Aligned_cols=49 Identities=22% Similarity=0.461 Sum_probs=32.9
Q ss_pred hhhhhcccCccCcccceeecCCCCCHHHHHHHHHH---HhHHHHhhC---CCCcccccce
Q psy10373 9 NFYRYLRPDTESKKYPHCFGGAPLDAEKAEKLDQA---LGFLNTFLA---SSPWVAGDNI 62 (215)
Q Consensus 9 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~---~~~l~~~~~---g~~y~~~~~l 62 (215)
.+=.||||.-. -.| -..-.++|+++.+++- +.|+++..+ -|+|+|+..+
T Consensus 246 TiGQYlqPS~~--Hlp---V~ryv~PeeF~~~~~~a~~~GF~~v~sgPlvRSSYhA~~~~ 300 (306)
T COG0320 246 TIGQYLQPSRK--HLP---VQRYVTPEEFDELEEVAEEMGFLHVASGPLVRSSYHADEQF 300 (306)
T ss_pred EeccccCCccc--cCC---ceeccCHHHHHHHHHHHHHccchhhccCcccccccchHHHH
Confidence 34578999654 222 2335677777776654 889888876 7899997543
No 220
>TIGR02200 GlrX_actino Glutaredoxin-like protein. This family of glutaredoxin-like proteins is limited to the Actinobacteria and contains the conserved CxxC motif.
Probab=24.38 E-value=1.9e+02 Score=18.02 Aligned_cols=59 Identities=19% Similarity=0.305 Sum_probs=31.8
Q ss_pred cCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhC-CCCccceEE-eCCeeeec
Q psy10373 154 YYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLN-PQHTVPTMD-DNGYTLSE 214 (215)
Q Consensus 154 ~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~-P~g~lp~l~-~~G~~l~e 214 (215)
+..+..+.+++.+.....++++....+ .-.+.........++ +...+|++. ++|..+.+
T Consensus 5 y~~~~C~~C~~~~~~L~~~~~~~~~id--i~~~~~~~~~~~~~~~~~~~vP~i~~~~g~~l~~ 65 (77)
T TIGR02200 5 YGTTWCGYCAQLMRTLDKLGAAYEWVD--IEEDEGAADRVVSVNNGNMTVPTVKFADGSFLTN 65 (77)
T ss_pred EECCCChhHHHHHHHHHHcCCceEEEe--CcCCHhHHHHHHHHhCCCceeCEEEECCCeEecC
Confidence 344445656666666666776544322 111222222233454 778899996 56666654
No 221
>TIGR02196 GlrX_YruB Glutaredoxin-like protein, YruB-family. This glutaredoxin-like protein family contains the conserved CxxC motif and includes the Clostridium pasteurianum protein YruB which has been cloned from a rubredoxin operon. Somewhat related to NrdH, it is unknown whether this protein actually interacts with glutathione/glutathione reducatase, or, like NrdH, some other reductant system.
Probab=23.50 E-value=64 Score=19.83 Aligned_cols=24 Identities=17% Similarity=0.116 Sum_probs=17.4
Q ss_pred CCcceecC--CCCeee--eeHHHHHHHH
Q psy10373 85 ASQTRHPG--NLLVLM--FSSRAIIAYL 108 (215)
Q Consensus 85 ~P~GkVPv--ddg~~L--~ES~AI~~YL 108 (215)
++.+.||+ .+|..+ +++.+|.++|
T Consensus 46 ~~~~~vP~~~~~~~~~~g~~~~~i~~~i 73 (74)
T TIGR02196 46 LGQRGVPVIVIGHKIIVGFDPEKLDQLL 73 (74)
T ss_pred hCCCcccEEEECCEEEeeCCHHHHHHHh
Confidence 47889999 667776 6666666654
No 222
>cd08534 SAM_PNT-GABP-alpha Sterile alpha motif (SAM)/Pointed domain of GA-binding protein alpha chain. SAM Pointed domain of GABP-alpha subfamily of ETS transcriptional regulators is a putative protein-protein interaction domain. This type of transcriptional regulators forms heterotetramers containing two alpha and two beta subunits. It interacts with GA repeats (purine rich repeats). GABP transcriptional factors control gene expression in cell cycle control, apoptosis, and cellular respiration. GABP participates in regulation of transmembrane receptors and key hormones especially in myeloid cells and at the neuromuscular junction.
Probab=22.90 E-value=66 Score=22.20 Aligned_cols=24 Identities=17% Similarity=0.254 Sum_probs=18.7
Q ss_pred CCCCCHHH--HHHHHHHHhhhccccc
Q psy10373 118 LYPKDPKA--RGIVNQRLYFDIGTLY 141 (215)
Q Consensus 118 L~p~d~~e--ra~v~~wl~~~~~~l~ 141 (215)
-.|.||.. +..|.+|+.|....+.
T Consensus 14 ~IP~DP~~Wt~~~V~~WL~Wa~~ef~ 39 (89)
T cd08534 14 KIPYDPMEWTEDQVLHWVVWAVKEFS 39 (89)
T ss_pred CCCCChHHcCHHHHHHHHHHHHHHcC
Confidence 46788876 7889999999876653
No 223
>cd03027 GRX_DEP Glutaredoxin (GRX) family, Dishevelled, Egl-10, and Pleckstrin (DEP) subfamily; composed of uncharacterized proteins containing a GRX domain and additional domains DEP and DUF547, both of which have unknown functions. GRX is a glutathione (GSH) dependent reductase containing a redox active CXXC motif in a TRX fold. It has preference for mixed GSH disulfide substrates, in which it uses a monothiol mechanism where only the N-terminal cysteine is required. By altering the redox state of target proteins, GRX is involved in many cellular functions.
Probab=22.43 E-value=2.1e+02 Score=18.01 Aligned_cols=58 Identities=21% Similarity=0.197 Sum_probs=34.3
Q ss_pred ccCCCCCCchHHHHHHHHHcCCCcEEEeccCCCCCCCCHhHHhhCCCCccceEEeCCeee
Q psy10373 153 FYYVPGSAPCRAVQLAAAQIGVPLNLKHTDLMKGEHLTPEFLKLNPQHTVPTMDDNGYTL 212 (215)
Q Consensus 153 l~~~~~~~~~~~~~~~~~~l~le~~L~~~~fl~Gd~~T~ADi~l~P~g~lp~l~~~G~~l 212 (215)
++..+..+.+.+++..+...+++....+ ....+....+...+++...+|.+..+|..+
T Consensus 5 ly~~~~C~~C~ka~~~L~~~gi~~~~~d--i~~~~~~~~el~~~~g~~~vP~v~i~~~~i 62 (73)
T cd03027 5 IYSRLGCEDCTAVRLFLREKGLPYVEIN--IDIFPERKAELEERTGSSVVPQIFFNEKLV 62 (73)
T ss_pred EEecCCChhHHHHHHHHHHCCCceEEEE--CCCCHHHHHHHHHHhCCCCcCEEEECCEEE
Confidence 3444556667777777777777655432 222222222345677888899998766543
No 224
>cd08543 SAM_PNT-ETS-2 Sterile alpha motif (SAM)/Pointed domain of ETS-2. SAM Pointed domain of ETS-2 subfamily of ETS transcriptional regulators is a protein-protein interaction domain. It contains a docking site for Cdk10 (cyclin-dependent kinase 10), a member of the Cdc2 kinase family. The interaction between ETS-2 and Cdk10 kinase inhibits ETS-2 transactivation activity in mammals. ETS-2 is also regulated by ERK2 MAP kinase. ETS-2, which is phosphorylated by ERK2, can interact with coactivators and enhance transactivation. ETS-2 transcriptional activators are involved in embryonic development and cell cycle control. The Ets-2 gene is a proto-oncogene. It is overexpressed in breast and prostate cancer cells and its overexpression is necessary for transformation of such cells. Members of ETS-2 subfamily are potential molecular targets for selective cancer therapy.
Probab=21.47 E-value=71 Score=22.08 Aligned_cols=24 Identities=25% Similarity=0.253 Sum_probs=18.3
Q ss_pred CCCCCHHH--HHHHHHHHhhhccccc
Q psy10373 118 LYPKDPKA--RGIVNQRLYFDIGTLY 141 (215)
Q Consensus 118 L~p~d~~e--ra~v~~wl~~~~~~l~ 141 (215)
-.|.||.. +..|.+|+.|+...+.
T Consensus 14 ~Ip~DP~~Wt~~~V~~WL~Wa~~ef~ 39 (89)
T cd08543 14 GIPKNPWLWTEQQVCQWLLWATNEFS 39 (89)
T ss_pred CCCCChhhCCHHHHHHHHHHHHHHcC
Confidence 46777765 7889999999876553
No 225
>cd08541 SAM_PNT-FLI-1 Sterile alpha motif (SAM)/Pointed domain of friend leukemia integration 1 transcription activator. SAM Pointed domain of FLI-1 (Friend Leukemia Integration) subfamily of ETS transcriptional regulators is a putative protein-protein interaction domain. The FLI-1 protein participates in regulation of cellular differentiation, proliferation, and survival. The Fli-1 gene was initially described in Friend virus-induced erythroleukemias as a site for virus integration. It is highly expressed in hematopoietic tissues and at lower level in lungs, heart, and ovaries. Fli-1 is a proto-oncogene implicated in Ewing's sarcoma and erythroleukemia. Members of this subfamily are potential targets for cancer therapy.
Probab=21.13 E-value=73 Score=22.11 Aligned_cols=24 Identities=29% Similarity=0.374 Sum_probs=18.6
Q ss_pred CCCCCHHH--HHHHHHHHhhhccccc
Q psy10373 118 LYPKDPKA--RGIVNQRLYFDIGTLY 141 (215)
Q Consensus 118 L~p~d~~e--ra~v~~wl~~~~~~l~ 141 (215)
..|.||.. +.+|.+|+.|+...+.
T Consensus 12 ~IP~DP~~Wt~~hV~~WL~Wa~~ef~ 37 (91)
T cd08541 12 IVPADPTLWTQEHVRQWLEWAIKEYG 37 (91)
T ss_pred eCCCChhhcCHHHHHHHHHHHHHHcC
Confidence 46778865 7889999999876653
No 226
>cd08532 SAM_PNT-PDEF-like Sterile alpha motif (SAM)/Pointed domain of prostate-derived ETS factor. SAM Pointed domain of PDEF-like (Prostate-Derived ETS Factor) subfamily of ETS transcriptional regulators is a putative protein-protein interaction domain. In human males this activator is highly expressed in the prostate gland and enhances androgen-mediated activation of the PSA promoter though interaction with the DNA binding domain of androgen receptor. PDEF may play a role in prostate cancer development as well as in goblet cell formation and mucus production in the epithelial lining of respiratory and intestinal tracts.
Probab=20.74 E-value=73 Score=21.26 Aligned_cols=22 Identities=18% Similarity=0.205 Sum_probs=16.7
Q ss_pred CCCCHHH--HHHHHHHHhhhcccc
Q psy10373 119 YPKDPKA--RGIVNQRLYFDIGTL 140 (215)
Q Consensus 119 ~p~d~~e--ra~v~~wl~~~~~~l 140 (215)
.|.||.+ +..|.+|+.|....+
T Consensus 6 ip~DP~~Ws~~~V~~WL~w~~~ef 29 (76)
T cd08532 6 ISPDPYQWSPANVQKWLLWTEHQY 29 (76)
T ss_pred CCCChhhcCHHHHHHHHHHHHHHh
Confidence 4667765 788999999987654
No 227
>PF09098 Dehyd-heme_bind: Quinohemoprotein amine dehydrogenase A, alpha subunit, haem binding; InterPro: IPR015182 Quinohemoprotein amine dehydrogenases (QHNDH) 1.4.99 from EC) are enzymes produced in the periplasmic space of certain Gram-negative bacteria, such as Paracoccus denitrificans and Pseudomonas putida, in response to primary amines, including n-butylamine and benzylamine. QHNDH catalyses the oxidative deamination of a wide range of aliphatic and aromatic amines through formation of a Schiff-base intermediate involving one of the quinone O atoms []. Catalysis requires the presence of a novel redox cofactor, cysteine tryptophylquinone (CTQ). CTQ is derived from the post-translational modification of specific residues, which involves the oxidation of the indole ring of a tryptophan residue to form tryptophylquinone, followed by covalent cross-linking with a cysteine residue []. There is one CTQ per subunit in QHNDH. In addition to CTQ, two haem c cofactors are present in QHNDH that mediate the transfer of the substrate-derived electrons from CTQ to an external electron acceptor, cytochrome c-550 [, ]. QHNDH is a heterotrimer of alpha, beta and gamma subunits. The alpha and beta subunits contain signal peptides necessary for the translocation of QHNDH to the periplasm. The alpha subunit is composed of four domains - domain 1 forming a dihaem cytochrome, and domains 2-4 forming antiparallel beta-barrel structures; the beta subunit is a 7-bladed beta-propeller that provides part of the active site; and the small, catalytic gamma subunit contains the novel cross-linked CTQ cofactor, in addition to additional thioester cross-links between Cys and Asp/Glu residues that encage CTQ. The gamma subunit assumes a globular secondary structure with two short alpha-helices having many turns and bends []. This entry represents the dihaem cytochrome c domain of the QHNDH alpha subunit. The domain contain two cysteine residues that are involved in thioether linkages to haem []. ; PDB: 1PBY_A 1JJU_A 1JMZ_A 1JMX_A.
Probab=20.69 E-value=67 Score=24.87 Aligned_cols=18 Identities=44% Similarity=0.818 Sum_probs=12.5
Q ss_pred eHHHHHHHHHHHhCCCCCCCCC
Q psy10373 100 SSRAIIAYLAEQYGKDDSLYPK 121 (215)
Q Consensus 100 ES~AI~~YL~~~~~~~~~L~p~ 121 (215)
|-.||+.||++.+| |-|.
T Consensus 55 er~avVkYLAd~~G----Lap~ 72 (167)
T PF09098_consen 55 ERRAVVKYLADTQG----LAPS 72 (167)
T ss_dssp HHHHHHHHHHHHT-------CG
T ss_pred HHHHHHHHHHHccC----CCch
Confidence 35899999999998 6653
Done!