Query psy15093
Match_columns 179
No_of_seqs 194 out of 1110
Neff 8.9
Searched_HMMs 46136
Date Fri Aug 16 20:23:38 2013
Command hhsearch -i /work/01045/syshi/Psyhhblits/psy15093.a3m -d /work/01045/syshi/HHdatabase/Cdd.hhm -o /work/01045/syshi/hhsearch_cdd/15093hhsearch_cdd -cpu 12 -v 0
No Hit Prob E-value P-value Score SS Cols Query HMM Template HMM
1 TIGR00862 O-ClC intracellular 100.0 1.1E-34 2.3E-39 224.2 18.7 168 4-171 45-234 (236)
2 PLN02378 glutathione S-transfe 100.0 1.2E-30 2.6E-35 199.7 18.4 161 4-166 46-208 (213)
3 KOG1422|consensus 100.0 1.1E-30 2.3E-35 193.0 16.2 166 3-169 46-217 (221)
4 PLN02817 glutathione dehydroge 100.0 3.3E-30 7E-35 202.8 18.9 162 4-168 99-262 (265)
5 PRK09481 sspA stringent starva 100.0 4.4E-29 9.6E-34 190.6 17.0 148 4-159 45-204 (211)
6 KOG0406|consensus 100.0 2.6E-27 5.7E-32 179.9 17.2 167 4-171 44-225 (231)
7 PRK10542 glutathionine S-trans 100.0 1.6E-27 3.5E-32 180.2 13.3 145 5-157 39-197 (201)
8 PLN02473 glutathione S-transfe 99.9 5.1E-27 1.1E-31 179.2 14.6 148 4-156 40-210 (214)
9 PLN02395 glutathione S-transfe 99.9 4.5E-27 9.7E-32 179.6 13.9 148 4-156 39-209 (215)
10 KOG0868|consensus 99.9 1.1E-26 2.4E-31 167.7 12.9 146 6-158 46-208 (217)
11 TIGR01262 maiA maleylacetoacet 99.9 5.4E-26 1.2E-30 173.0 15.2 147 5-158 39-205 (210)
12 COG0625 Gst Glutathione S-tran 99.9 4.4E-26 9.6E-31 173.9 13.7 140 4-152 37-199 (211)
13 PRK13972 GSH-dependent disulfi 99.9 6.4E-26 1.4E-30 173.5 13.7 142 5-157 39-205 (215)
14 PRK15113 glutathione S-transfe 99.9 2.1E-25 4.6E-30 170.6 15.5 143 5-157 46-208 (214)
15 PRK11752 putative S-transferas 99.9 9E-25 2E-29 172.2 15.2 148 5-157 88-258 (264)
16 PRK10357 putative glutathione 99.9 8.3E-25 1.8E-29 165.7 14.2 147 5-158 36-201 (202)
17 PTZ00057 glutathione s-transfe 99.9 1.8E-24 3.9E-29 164.5 12.3 137 11-156 52-198 (205)
18 KOG0867|consensus 99.9 1.9E-23 4.2E-28 161.1 14.5 150 3-157 39-209 (226)
19 cd03198 GST_C_CLIC GST_C famil 99.9 1.1E-21 2.3E-26 139.0 12.0 114 53-166 2-133 (134)
20 PRK10387 glutaredoxin 2; Provi 99.9 1.3E-21 2.9E-26 148.8 12.5 132 10-152 40-208 (210)
21 KOG4420|consensus 99.8 2.8E-20 6.1E-25 141.7 13.1 160 4-164 64-294 (325)
22 TIGR02182 GRXB Glutaredoxin, G 99.8 6E-20 1.3E-24 140.1 13.0 133 8-152 37-207 (209)
23 cd03201 GST_C_DHAR GST_C famil 99.8 1E-19 2.2E-24 127.5 12.6 115 52-167 4-120 (121)
24 KOG1695|consensus 99.8 3.4E-18 7.3E-23 129.1 13.7 139 10-156 44-199 (206)
25 PLN02907 glutamate-tRNA ligase 99.8 1.8E-18 3.9E-23 151.7 13.5 126 12-150 32-159 (722)
26 cd03184 GST_C_Omega GST_C fami 99.6 1.7E-14 3.8E-19 101.1 11.5 92 75-166 31-122 (124)
27 cd03203 GST_C_Lambda GST_C fam 99.6 7.6E-15 1.6E-19 102.6 7.5 87 78-165 32-119 (120)
28 cd03190 GST_C_ECM4_like GST_C 99.6 1.8E-14 3.9E-19 103.6 8.4 91 76-168 37-129 (142)
29 cd03185 GST_C_Tau GST_C family 99.5 6.2E-14 1.3E-18 98.2 8.7 87 76-165 35-123 (126)
30 cd03186 GST_C_SspA GST_N famil 99.5 5E-14 1.1E-18 96.1 7.6 72 76-154 35-106 (107)
31 COG0435 ECM4 Predicted glutath 99.5 2.5E-14 5.3E-19 110.4 5.6 152 16-170 128-298 (324)
32 PF00043 GST_C: Glutathione S- 99.5 2.3E-13 4.9E-18 90.7 7.5 66 77-149 29-95 (95)
33 cd03196 GST_C_5 GST_C family, 99.5 2.8E-13 6E-18 94.0 7.8 76 75-155 40-115 (115)
34 cd03210 GST_C_Pi GST_C family, 99.4 9.3E-13 2E-17 92.7 9.5 77 77-158 36-113 (126)
35 cd03209 GST_C_Mu GST_C family, 99.4 1.3E-12 2.7E-17 91.3 9.7 75 77-158 36-110 (121)
36 cd03188 GST_C_Beta GST_C famil 99.4 4.7E-13 1E-17 91.9 7.0 70 77-154 44-113 (114)
37 cd03207 GST_C_8 GST_C family, 99.4 5.4E-13 1.2E-17 90.3 6.8 72 76-156 30-101 (103)
38 cd03191 GST_C_Zeta GST_C famil 99.4 6.6E-13 1.4E-17 92.5 7.3 74 78-157 46-119 (121)
39 cd03204 GST_C_GDAP1 GST_C fami 99.4 9.1E-13 2E-17 90.6 7.7 71 76-151 29-111 (111)
40 cd03187 GST_C_Phi GST_C family 99.4 6.1E-13 1.3E-17 91.9 6.3 72 77-154 46-117 (118)
41 cd03178 GST_C_Ure2p_like GST_C 99.4 6.7E-13 1.5E-17 91.1 6.3 72 77-155 41-112 (113)
42 cd03208 GST_C_Alpha GST_C fami 99.4 3.4E-12 7.3E-17 91.2 9.8 73 80-157 43-115 (137)
43 PF13410 GST_C_2: Glutathione 99.4 1.5E-12 3.3E-17 81.9 6.5 64 76-144 6-69 (69)
44 cd03061 GST_N_CLIC GST_N famil 99.4 8.3E-13 1.8E-17 87.5 5.5 42 3-44 47-88 (91)
45 KOG2903|consensus 99.4 1.1E-12 2.4E-17 100.5 6.6 151 16-169 122-299 (319)
46 cd03182 GST_C_GTT2_like GST_C 99.4 3.9E-12 8.4E-17 87.9 7.9 69 76-151 49-117 (117)
47 cd03177 GST_C_Delta_Epsilon GS 99.4 2.5E-12 5.4E-17 89.3 6.9 74 75-155 37-110 (118)
48 cd03180 GST_C_2 GST_C family, 99.3 3.8E-12 8.2E-17 86.8 7.3 67 77-151 44-110 (110)
49 cd03183 GST_C_Theta GST_C fami 99.3 2.8E-12 6.1E-17 89.9 6.8 73 77-155 46-120 (126)
50 cd03052 GST_N_GDAP1 GST_N fami 99.3 1.7E-12 3.8E-17 82.8 4.4 36 4-39 38-73 (73)
51 cd03206 GST_C_7 GST_C family, 99.3 5.9E-12 1.3E-16 84.9 6.9 69 75-151 32-100 (100)
52 PF13417 GST_N_3: Glutathione 99.3 5.1E-12 1.1E-16 80.9 5.6 41 4-44 33-73 (75)
53 cd03057 GST_N_Beta GST_N famil 99.3 4.1E-12 8.9E-17 81.6 5.1 40 4-43 37-77 (77)
54 cd03181 GST_C_EFB1gamma GST_C 99.3 7E-12 1.5E-16 87.3 6.5 78 76-158 40-117 (123)
55 cd03046 GST_N_GTT1_like GST_N 99.3 5.9E-12 1.3E-16 80.5 5.1 40 4-43 37-76 (76)
56 cd03189 GST_C_GTT1_like GST_C 99.3 1.2E-11 2.5E-16 85.8 6.9 65 77-149 55-119 (119)
57 PF14497 GST_C_3: Glutathione 99.3 1.3E-11 2.9E-16 83.1 6.5 65 76-147 35-99 (99)
58 PF13409 GST_N_2: Glutathione 99.3 7.6E-12 1.6E-16 79.2 4.9 38 4-41 32-70 (70)
59 cd03048 GST_N_Ure2p_like GST_N 99.3 1E-11 2.2E-16 80.6 5.2 40 4-43 38-80 (81)
60 cd03050 GST_N_Theta GST_N fami 99.3 1E-11 2.2E-16 79.7 5.1 38 5-42 39-76 (76)
61 cd03202 GST_C_etherase_LigE GS 99.2 2.7E-11 5.9E-16 85.0 7.3 68 75-148 57-124 (124)
62 cd03195 GST_C_4 GST_C family, 99.2 2.9E-11 6.2E-16 83.7 7.0 71 75-155 41-111 (114)
63 cd03200 GST_C_JTV1 GST_C famil 99.2 1.1E-10 2.5E-15 78.3 9.6 95 35-147 1-95 (96)
64 cd03059 GST_N_SspA GST_N famil 99.2 1.9E-11 4.1E-16 77.5 5.2 39 4-42 35-73 (73)
65 PF02798 GST_N: Glutathione S- 99.2 1.6E-11 3.4E-16 78.9 4.7 36 5-40 39-76 (76)
66 cd03045 GST_N_Delta_Epsilon GS 99.2 2.9E-11 6.4E-16 76.9 4.6 36 5-40 39-74 (74)
67 cd03053 GST_N_Phi GST_N family 99.2 3.2E-11 6.9E-16 77.2 4.8 38 4-41 39-76 (76)
68 cd03058 GST_N_Tau GST_N family 99.2 3.4E-11 7.4E-16 76.8 4.8 39 4-42 35-74 (74)
69 cd03194 GST_C_3 GST_C family, 99.2 7.7E-11 1.7E-15 81.6 6.9 71 76-155 41-112 (114)
70 cd03047 GST_N_2 GST_N family, 99.1 5.2E-11 1.1E-15 75.7 4.4 35 5-39 39-73 (73)
71 cd03193 GST_C_Metaxin GST_C fa 99.1 1E-10 2.2E-15 77.0 5.5 69 76-146 19-88 (88)
72 cd03076 GST_N_Pi GST_N family, 99.1 5.2E-11 1.1E-15 75.9 3.8 35 6-40 38-72 (73)
73 cd03044 GST_N_EF1Bgamma GST_N 99.1 7E-11 1.5E-15 75.6 4.2 37 4-40 37-74 (75)
74 cd03041 GST_N_2GST_N GST_N fam 99.1 8.5E-11 1.8E-15 75.6 4.3 37 6-42 39-77 (77)
75 cd00299 GST_C_family Glutathio 99.1 2.5E-10 5.4E-15 75.9 6.2 65 76-145 36-100 (100)
76 cd03075 GST_N_Mu GST_N family, 99.1 1.1E-10 2.4E-15 76.1 4.2 29 14-42 54-82 (82)
77 cd03043 GST_N_1 GST_N family, 99.1 1.4E-10 3E-15 73.9 4.1 35 5-39 39-73 (73)
78 cd03056 GST_N_4 GST_N family, 99.1 2.1E-10 4.5E-15 72.6 4.4 35 5-39 39-73 (73)
79 cd03042 GST_N_Zeta GST_N famil 99.1 2.2E-10 4.7E-15 72.5 4.4 36 4-39 38-73 (73)
80 cd03179 GST_C_1 GST_C family, 99.1 4.1E-10 8.8E-15 76.1 5.8 62 77-146 44-105 (105)
81 KOG4244|consensus 99.0 1.2E-09 2.7E-14 84.2 8.8 135 9-147 85-272 (281)
82 cd03038 GST_N_etherase_LigE GS 99.0 2.6E-10 5.5E-15 74.5 3.6 35 8-43 49-84 (84)
83 cd03039 GST_N_Sigma_like GST_N 99.0 2.4E-10 5.3E-15 72.4 3.4 34 7-40 39-72 (72)
84 cd03192 GST_C_Sigma_like GST_C 99.0 3.5E-09 7.7E-14 71.5 8.9 65 77-145 40-104 (104)
85 cd03060 GST_N_Omega_like GST_N 99.0 4.7E-10 1E-14 70.9 4.3 34 5-38 36-70 (71)
86 cd03077 GST_N_Alpha GST_N fami 99.0 6.3E-10 1.4E-14 72.0 4.7 37 7-43 36-77 (79)
87 cd03049 GST_N_3 GST_N family, 99.0 3.9E-10 8.4E-15 71.6 3.6 36 4-39 37-73 (73)
88 cd03051 GST_N_GTT2_like GST_N 99.0 8.3E-10 1.8E-14 69.8 4.0 35 5-39 39-74 (74)
89 cd03080 GST_N_Metaxin_like GST 98.9 1.1E-09 2.3E-14 70.1 4.2 34 10-43 42-75 (75)
90 cd03055 GST_N_Omega GST_N fami 98.9 2.6E-09 5.7E-14 70.6 3.9 35 5-39 54-89 (89)
91 cd03211 GST_C_Metaxin2 GST_C f 98.8 8E-09 1.7E-13 72.7 5.2 69 75-145 56-125 (126)
92 cd03197 GST_C_mPGES2 GST_C fam 98.8 1.8E-08 3.8E-13 72.4 6.2 65 77-147 80-145 (149)
93 cd03205 GST_C_6 GST_C family, 98.8 2.4E-08 5.2E-13 66.9 6.4 62 76-145 37-98 (98)
94 cd03212 GST_C_Metaxin1_3 GST_C 98.8 1.5E-08 3.2E-13 72.4 5.4 70 76-147 64-134 (137)
95 cd03037 GST_N_GRX2 GST_N famil 98.7 1.5E-08 3.2E-13 63.9 4.3 34 7-40 37-71 (71)
96 cd03079 GST_N_Metaxin2 GST_N f 98.7 1.1E-08 2.5E-13 65.1 3.7 30 12-41 45-74 (74)
97 cd03054 GST_N_Metaxin GST_N fa 98.6 4.1E-08 8.9E-13 62.1 3.7 30 12-41 43-72 (72)
98 cd03040 GST_N_mPGES2 GST_N fam 98.6 5.1E-08 1.1E-12 62.4 4.2 33 10-42 40-76 (77)
99 cd00570 GST_N_family Glutathio 98.5 1.4E-07 3E-12 58.1 3.9 32 8-39 40-71 (71)
100 KOG3027|consensus 98.3 7.9E-06 1.7E-10 61.2 10.3 131 12-147 62-247 (257)
101 COG2999 GrxB Glutaredoxin 2 [P 98.3 9.5E-06 2E-10 59.5 9.6 126 15-151 45-207 (215)
102 KOG3029|consensus 98.1 4.8E-05 1E-09 59.7 10.7 64 79-147 291-354 (370)
103 PF14834 GST_C_4: Glutathione 98.1 1.1E-05 2.3E-10 55.2 6.1 71 75-155 42-112 (117)
104 cd03078 GST_N_Metaxin1_like GS 97.9 1.4E-05 3.1E-10 50.7 3.8 31 11-41 42-72 (73)
105 KOG3028|consensus 97.9 0.00031 6.7E-09 55.9 11.1 65 80-148 167-234 (313)
106 PF04399 Glutaredoxin2_C: Glut 97.2 0.001 2.2E-08 47.0 5.6 65 76-150 59-123 (132)
107 cd03199 GST_C_GRX2 GST_C famil 97.1 0.0031 6.7E-08 44.3 6.9 66 75-150 59-124 (128)
108 PF10568 Tom37: Outer mitochon 96.8 0.0018 3.9E-08 40.9 3.5 27 12-38 44-71 (72)
109 TIGR02190 GlrX-dom Glutaredoxi 95.3 0.025 5.5E-07 36.0 3.6 33 7-39 47-79 (79)
110 KOG1147|consensus 94.3 0.023 5.1E-07 48.7 1.7 61 78-143 90-150 (712)
111 TIGR02196 GlrX_YruB Glutaredox 93.9 0.11 2.4E-06 31.7 3.8 32 7-38 40-73 (74)
112 PF09635 MetRS-N: MetRS-N bind 92.6 0.076 1.6E-06 36.8 1.7 33 11-43 29-63 (122)
113 cd03029 GRX_hybridPRX5 Glutare 92.5 0.24 5.1E-06 30.7 3.8 32 8-39 41-72 (72)
114 PRK10638 glutaredoxin 3; Provi 91.1 0.44 9.5E-06 30.4 4.0 34 6-39 41-74 (83)
115 cd02066 GRX_family Glutaredoxi 90.6 0.47 1E-05 28.5 3.7 31 7-37 40-70 (72)
116 cd02976 NrdH NrdH-redoxin (Nrd 90.1 0.35 7.5E-06 29.3 2.8 23 7-29 40-62 (73)
117 PF11801 Tom37_C: Tom37 C-term 89.8 0.54 1.2E-05 34.6 4.0 39 81-119 113-153 (168)
118 TIGR02200 GlrX_actino Glutared 86.0 0.69 1.5E-05 28.5 2.2 33 7-39 40-76 (77)
119 PF11287 DUF3088: Protein of u 82.6 2 4.4E-05 29.4 3.4 29 15-43 66-108 (112)
120 TIGR02183 GRXA Glutaredoxin, G 78.8 5 0.00011 25.7 4.3 28 16-43 56-83 (86)
121 cd03027 GRX_DEP Glutaredoxin ( 75.9 3.1 6.8E-05 25.6 2.6 27 7-33 41-67 (73)
122 KOG1668|consensus 74.6 3.4 7.4E-05 31.9 2.9 58 82-151 10-67 (231)
123 PRK11200 grxA glutaredoxin 1; 73.6 6.3 0.00014 25.0 3.7 28 16-43 57-84 (85)
124 TIGR02681 phage_pRha phage reg 68.5 5.8 0.00013 27.0 2.7 26 18-43 2-28 (108)
125 cd03418 GRX_GRXb_1_3_like Glut 66.5 13 0.00028 22.5 3.9 31 9-39 42-73 (75)
126 TIGR02181 GRX_bact Glutaredoxi 63.1 16 0.00035 22.5 3.9 34 7-40 39-72 (79)
127 cd03419 GRX_GRXh_1_2_like Glut 58.8 23 0.0005 21.8 4.1 32 9-40 45-76 (82)
128 TIGR01764 excise DNA binding d 50.8 32 0.00069 18.6 3.4 25 15-39 24-48 (49)
129 TIGR02180 GRX_euk Glutaredoxin 48.0 44 0.00095 20.5 4.1 31 10-40 47-77 (84)
130 PRK10329 glutaredoxin-like pro 46.5 27 0.00058 22.1 2.9 27 10-36 43-71 (81)
131 PF12728 HTH_17: Helix-turn-he 36.9 78 0.0017 17.6 3.6 28 14-41 23-50 (51)
132 PF00462 Glutaredoxin: Glutare 36.2 38 0.00083 19.6 2.3 22 7-28 39-60 (60)
133 COG3109 ProQ Activator of osmo 36.1 1.4E+02 0.003 22.3 5.4 67 27-102 6-73 (208)
134 PF04564 U-box: U-box domain; 35.5 35 0.00077 21.1 2.1 25 17-42 15-39 (73)
135 cd03028 GRX_PICOT_like Glutare 31.3 1.2E+02 0.0025 19.4 4.2 29 10-38 56-84 (90)
136 COG0695 GrxC Glutaredoxin and 28.0 1.1E+02 0.0024 19.2 3.5 26 8-33 43-69 (80)
137 COG4545 Glutaredoxin-related p 23.6 88 0.0019 20.0 2.3 48 107-156 12-59 (85)
138 PHA03050 glutaredoxin; Provisi 23.4 1.6E+02 0.0035 19.7 3.9 29 8-36 60-88 (108)
139 cd08200 catalase_peroxidase_2 23.2 1.9E+02 0.004 23.5 4.7 43 80-122 73-115 (297)
140 TIGR02194 GlrX_NrdH Glutaredox 22.7 72 0.0016 19.2 1.9 18 9-26 40-57 (72)
141 PF12622 NpwBP: mRNA biogenesi 21.6 46 0.001 19.1 0.7 11 11-21 10-20 (48)
142 TIGR02189 GlrX-like_plant Glut 20.9 2.3E+02 0.005 18.5 4.2 28 9-36 53-80 (99)
143 TIGR03412 iscX_yfhJ FeS assemb 20.5 1E+02 0.0022 18.8 2.1 16 29-44 3-18 (63)
144 TIGR00365 monothiol glutaredox 20.1 2.5E+02 0.0053 18.3 4.2 28 10-37 60-87 (97)
No 1
>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=100.00 E-value=1.1e-34 Score=224.15 Aligned_cols=168 Identities=25% Similarity=0.456 Sum_probs=140.7
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCC--CCCCCCCchHHHHHHHHHHHHHHHHHcCCC----hHH
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPG--GHNLFVQDKEVATLIENLYSKLKLMLLKKD----DVS 77 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~--~~~L~p~~~~~~~~~~~~~~~~~~~~~~~~----~~~ 77 (179)
.++++|+++||.|+||||+++|.+|+||.||++||+++|+. .|.+.|.++.......+++..+..++.+.. +..
T Consensus 45 ~~~~~fl~inP~g~vPvL~~~g~~l~ES~aI~eYL~e~~~~~~~p~l~p~~~~~~~~~~~l~~~~~~~~~~~~~~~~~~~ 124 (236)
T TIGR00862 45 RKPEDLQNLAPGTHPPFLTYNTEVKTDVNKIEEFLEETLCPPRYPKLSPKHPESNTAGLDIFAKFSAYIKNSNPEANDNL 124 (236)
T ss_pred CCCHHHHHHCcCCCCCEEEECCEEeecHHHHHHHHHHHcCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHcCCHHHHHHH
Confidence 45799999999999999999999999999999999999974 245667676655555567777766654432 223
Q ss_pred HHHHHHHHHHHHHHHcc----------------CCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHH
Q psy15093 78 INALMSHLRKINDHLGR----------------KETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHY 141 (179)
Q Consensus 78 ~~~l~~~l~~le~~L~~----------------~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w 141 (179)
.+++.+.++.||++|.+ .+++|++||++|+|||+++|++.++..+...+.+++++++||+|.+|
T Consensus 125 ~~~l~~~l~~Le~~L~~~~~~~~~~~~~~~~~~~~~~f~~Gd~~tlaD~~l~p~l~~l~~~~~~~~~~~i~~~~p~l~~w 204 (236)
T TIGR00862 125 EKGLLKALKKLDDYLNSPLPEEIDEDSAEDEKVSRRKFLDGDELTLADCNLLPKLHIVKVVAKKYRNFDIPAEFTGVWRY 204 (236)
T ss_pred HHHHHHHHHHHHHHHhccccccccccccccccccCCCcccCCccchhhHHHHHHHHHHHHHHHHHhCcCccccCchHHHH
Confidence 45688999999999973 14789999999999999999999998765666788888999999999
Q ss_pred HHHHhccccccccCCChHHHHHHHHhhhcc
Q psy15093 142 MKHMYELEAFTQSCPADQDIINHYKLQQVW 171 (179)
Q Consensus 142 ~~~~~~~p~~~~~~~~~~~~~~~~~~~~~~ 171 (179)
+++|.+||+|+.+++..++|+.+|.++.++
T Consensus 205 ~~~~~~~~sf~~t~p~~~~i~~~~~~~~~~ 234 (236)
T TIGR00862 205 LSNAYAREEFTNTCPDDKEIELAYADVAKR 234 (236)
T ss_pred HHHHhccchHHhhCCChHHHHHHHHHHhhc
Confidence 999999999999999999999999988543
No 2
>PLN02378 glutathione S-transferase DHAR1
Probab=99.97 E-value=1.2e-30 Score=199.66 Aligned_cols=161 Identities=22% Similarity=0.390 Sum_probs=123.2
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCCCCchHHHHHHHHHHHHHHHHHcCC--ChHHHHHH
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLFVQDKEVATLIENLYSKLKLMLLKK--DDVSINAL 81 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~~~~~~~~~~~~~~~~~~~~--~~~~~~~l 81 (179)
.++++|+++||+|+||+|+++|.+|+||.||++||+++|+.. .+.+ ..+.+.+...++..+..+.... .+...+.+
T Consensus 46 ~~~~~~l~inP~G~VPvL~~~~~~l~ES~aI~~YL~~~~~~~-~l~~-~~~~a~i~~~~~~~~~~~~~~~~~~~~~~~~~ 123 (213)
T PLN02378 46 DKPQWFLDISPQGKVPVLKIDDKWVTDSDVIVGILEEKYPDP-PLKT-PAEFASVGSNIFGTFGTFLKSKDSNDGSEHAL 123 (213)
T ss_pred cCCHHHHHhCCCCCCCEEEECCEEecCHHHHHHHHHHhCCCC-CCCC-HHHHHHHHHHHHHHHHHHHhcCChhhHHHHHH
Confidence 467899999999999999999999999999999999999853 3432 2333444444554444443332 23345678
Q ss_pred HHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccCCChHHH
Q psy15093 82 MSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSCPADQDI 161 (179)
Q Consensus 82 ~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~~~~~~~ 161 (179)
.+.|..+|++|..++++|++||++|+|||++++.+.++......+.++++.+.||+|.+|+++|.+||+|+++++.....
T Consensus 124 ~~~l~~le~~L~~~~~~fl~Gd~~T~ADi~l~~~~~~l~~~~~~~~~~~~~~~~p~l~~w~~~~~~rpa~~~~~~~~~~~ 203 (213)
T PLN02378 124 LVELEALENHLKSHDGPFIAGERVSAVDLSLAPKLYHLQVALGHFKSWSVPESFPHVHNYMKTLFSLDSFEKTKTEEKYV 203 (213)
T ss_pred HHHHHHHHHHHhcCCCCCcCCCCCchhhHHHHHHHHHHHHHHHHhcCCCchhHhHHHHHHHHHHhcCCCeecccCChHHH
Confidence 88999999999854478999999999999999998887643333334555578999999999999999999999887666
Q ss_pred HHHHH
Q psy15093 162 INHYK 166 (179)
Q Consensus 162 ~~~~~ 166 (179)
+..|.
T Consensus 204 ~~~~~ 208 (213)
T PLN02378 204 ISGWA 208 (213)
T ss_pred HHHHH
Confidence 65543
No 3
>KOG1422|consensus
Probab=99.97 E-value=1.1e-30 Score=193.00 Aligned_cols=166 Identities=31% Similarity=0.551 Sum_probs=149.2
Q ss_pred CCCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCC-CCchHHHHHHHHHHHHHHHHHcCCC----hHH
Q psy15093 3 NTRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLF-VQDKEVATLIENLYSKLKLMLLKKD----DVS 77 (179)
Q Consensus 3 ~~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~-p~~~~~~~~~~~~~~~~~~~~~~~~----~~~ 77 (179)
+.+|+||+.+.|.|++|+|..|+.+++||..|.++|++++|. |.+. -.++|.+.+++++|.+|..++.+.. +..
T Consensus 46 ~~kp~~f~~~sp~~~~P~l~~d~~~~tDs~~Ie~~Lee~l~~-p~~~~~~~~E~asag~diF~kF~~fi~ksk~~~n~~~ 124 (221)
T KOG1422|consen 46 SRKPEWFLDISPGGKPPVLKFDEKWVTDSDKIEEFLEEKLPP-PKLPTLAPPESASAGSDIFAKFSAFIKKSKDAANDGL 124 (221)
T ss_pred CCCcHHHHhhCCCCCCCeEEeCCceeccHHHHHHHHHHhcCC-CCCcccCCHHHHhhHHHHHHHHHHHHhCchhhccchH
Confidence 457899999999999999999999999999999999999985 3332 2278889999999999999986543 345
Q ss_pred HHHHHHHHHHHHHHHcc-CCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccCC
Q psy15093 78 INALMSHLRKINDHLGR-KETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSCP 156 (179)
Q Consensus 78 ~~~l~~~l~~le~~L~~-~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~~ 156 (179)
.+.+.++|..||++|.. +.++||.||++|+|||.++|-|+.+.+++..+++|++|+++++|++|++.+.++.+|..+|+
T Consensus 125 e~~Ll~~L~~Ld~yL~sp~~~~Fl~Gd~lt~aDcsLlPKL~~i~va~k~yk~~~IP~~lt~V~rYl~~~ya~d~F~~tcp 204 (221)
T KOG1422|consen 125 EKALLKELEKLDDYLKSPSRRKFLDGDKLTLADCSLLPKLHHIKVAAKHYKNFEIPASLTGVWRYLKNAYARDEFTNTCP 204 (221)
T ss_pred HHHHHHHHHHHHHHhcCccCCccccCCeeeeehhhhchhHHHHHHHHHHhcCCCCchhhhHHHHHHHHHHhHHHhhcCCc
Confidence 67899999999999996 56899999999999999999999999999999999999999999999999999999999999
Q ss_pred ChHHHHHHHHhhh
Q psy15093 157 ADQDIINHYKLQQ 169 (179)
Q Consensus 157 ~~~~~~~~~~~~~ 169 (179)
..++|..+|....
T Consensus 205 ~d~ei~~~y~~~~ 217 (221)
T KOG1422|consen 205 ADQEIILAYAPVA 217 (221)
T ss_pred hHHHHHHhhhhhh
Confidence 9999999997643
No 4
>PLN02817 glutathione dehydrogenase (ascorbate)
Probab=99.97 E-value=3.3e-30 Score=202.81 Aligned_cols=162 Identities=20% Similarity=0.349 Sum_probs=129.3
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCCCCchHHHHHHHHHHHHHHHHHcCCC--hHHHHHH
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLFVQDKEVATLIENLYSKLKLMLLKKD--DVSINAL 81 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~~~~~~~~~~~~~~~~~~~~~--~~~~~~l 81 (179)
.+++||+++||.|+||+|+++|.+|+||.+|++||+++||. +.|.+ ..+.+.+...++..+..++.... +...+++
T Consensus 99 ~~~~~fl~iNP~GkVPvL~~d~~~L~ES~aI~~YL~e~~p~-~~L~~-~~era~i~~~l~~~~~~~~~~~~~~~~~~~~l 176 (265)
T PLN02817 99 NKPEWFLKISPEGKVPVVKLDEKWVADSDVITQALEEKYPD-PPLAT-PPEKASVGSKIFSTFIGFLKSKDPGDGTEQAL 176 (265)
T ss_pred cCCHHHHhhCCCCCCCEEEECCEEEecHHHHHHHHHHHCCC-CCCCC-HHHHHHHHHHHHHHHHHHhccCCcchHHHHHH
Confidence 46889999999999999999999999999999999999986 34543 23445555555555544444332 2334578
Q ss_pred HHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccCCChHHH
Q psy15093 82 MSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSCPADQDI 161 (179)
Q Consensus 82 ~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~~~~~~~ 161 (179)
.+.|..||++|++ +++||+|+++|+|||+++|.+.++......+.++++++.||+|.+|+++|.++|+|+++++..+++
T Consensus 177 ~~~l~~LE~~L~~-~g~yl~Gd~~SlADi~l~p~L~~l~~~~~~~~~~~i~~~~P~L~~w~~ri~~rps~~~~~~~~~~~ 255 (265)
T PLN02817 177 LDELTSFDDYIKE-NGPFINGEKISAADLSLGPKLYHLEIALGHYKNWSVPDSLPFVKSYMKNIFSMESFVKTRALPEDV 255 (265)
T ss_pred HHHHHHHHHHHhc-CCCeeCCCCCCHHHHHHHHHHHHHHHHHHHhcCCCccccCHHHHHHHHHHhcchhHhhcCCCHHHH
Confidence 8899999999984 368999999999999999999887654333445666688999999999999999999999998999
Q ss_pred HHHHHhh
Q psy15093 162 INHYKLQ 168 (179)
Q Consensus 162 ~~~~~~~ 168 (179)
+..|..+
T Consensus 256 ~~~~~~~ 262 (265)
T PLN02817 256 IAGWRPK 262 (265)
T ss_pred HHHhHhh
Confidence 9998654
No 5
>PRK09481 sspA stringent starvation protein A; Provisional
Probab=99.97 E-value=4.4e-29 Score=190.59 Aligned_cols=148 Identities=20% Similarity=0.252 Sum_probs=112.1
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCCCCchHH-HHHHHHH------HHHHHHHHcCCC--
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLFVQDKEV-ATLIENL------YSKLKLMLLKKD-- 74 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~~-~~~~~~~------~~~~~~~~~~~~-- 74 (179)
.++++|+++||+|+||+|+++|.+|+||.||++||+++||. +.|.|.++.. +.+...+ +..+...+....
T Consensus 45 ~~~~~~~~~nP~g~VPvL~~~g~~l~ES~AIl~YL~~~~~~-~~l~p~~~~~ra~~~~~~~~~~~~~~~~~~~~~~~~~~ 123 (211)
T PRK09481 45 NLPQDLIDLNPYQSVPTLVDRELTLYESRIIMEYLDERFPH-PPLMPVYPVARGESRLMMHRIEKDWYSLMNKIVNGSAS 123 (211)
T ss_pred cCCHHHHHhCCCCCCCEEEECCEEeeCHHHHHHHHHHhCCC-CCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHhcCCHH
Confidence 45789999999999999999999999999999999999985 4678876542 2211111 111111111221
Q ss_pred --hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccc-cccHHHHHHHHHHhccccc
Q psy15093 75 --DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIP-TYMKHLWHYMKHMYELEAF 151 (179)
Q Consensus 75 --~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~-~~~p~l~~w~~~~~~~p~~ 151 (179)
+...+.+.+.+..+|++|+ +++|++|+++|+|||++++.+.++... ++++. +.||+|.+|+++|.+||+|
T Consensus 124 ~~~~~~~~l~~~l~~le~~L~--~~~~l~G~~~t~AD~~l~~~~~~~~~~-----~~~~~~~~~p~l~~w~~~~~~rp~~ 196 (211)
T PRK09481 124 EADAARKQLREELLAIAPVFG--EKPYFMSEEFSLVDCYLAPLLWRLPVL-----GIELSGPGAKELKGYMTRVFERDSF 196 (211)
T ss_pred HHHHHHHHHHHHHHHHHHHhc--cCCcccCCCccHHHHHHHHHHHHHHhc-----CCCCCCCCChhHHHHHHHHhccHHH
Confidence 2345678889999999998 679999999999999999998776532 23332 5799999999999999999
Q ss_pred cccCCChH
Q psy15093 152 TQSCPADQ 159 (179)
Q Consensus 152 ~~~~~~~~ 159 (179)
++++...+
T Consensus 197 ~~~~~~~~ 204 (211)
T PRK09481 197 LASLTEAE 204 (211)
T ss_pred HHHcCHHH
Confidence 99987653
No 6
>KOG0406|consensus
Probab=99.96 E-value=2.6e-27 Score=179.86 Aligned_cols=167 Identities=19% Similarity=0.247 Sum_probs=131.5
Q ss_pred CCchhHhhhC-CCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCCCCchHHHHHHH---HHHH-----HHHHHHc-CC
Q psy15093 4 TRDKKARTNF-EATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLFVQDKEVATLIE---NLYS-----KLKLMLL-KK 73 (179)
Q Consensus 4 ~~~~~~~~~n-P~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~~~~~~~---~~~~-----~~~~~~~-~~ 73 (179)
+||+|+++.| |.+|||||+++|..|.||..|++||++++|++++++|.||....... +.++ ....+.. ..
T Consensus 44 ~Ks~~ll~~np~hkKVPvL~Hn~k~i~ESliiveYiDe~w~~~~~iLP~DPy~Ra~arfwa~~id~~~~~~~~~~~~~~~ 123 (231)
T KOG0406|consen 44 NKSEWLLEKNPVHKKVPVLEHNGKPICESLIIVEYIDETWPSGPPILPSDPYERAQARFWAEYIDKKVFFVGRFVVAAKG 123 (231)
T ss_pred CCCHHHHHhccccccCCEEEECCceehhhHHHHHHHHhhccCCCCCCCCCHHHHHHHHHHHHHHHhHHHHHHHHHHhhcC
Confidence 4899999999 79999999999999999999999999999966789999986533221 1111 1111111 22
Q ss_pred -C--hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccC--cccccccHHHHHHHHHHhcc
Q psy15093 74 -D--DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQ--FEIPTYMKHLWHYMKHMYEL 148 (179)
Q Consensus 74 -~--~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~--~~~~~~~p~l~~w~~~~~~~ 148 (179)
. +...+++...|..||+.|.+ +++|+.|++++++|++++|++.++..+.....+ +.....+|+|.+|.+||.++
T Consensus 124 ~e~~~~~~~e~~e~l~~lE~el~k-~k~~fgG~~~G~vDi~~~p~~~~~~~~~~~~~~~~~~~~~~~P~L~~W~~~~~~~ 202 (231)
T KOG0406|consen 124 GEEQEAAKEELREALKVLEEELGK-GKDFFGGETIGFVDIAIGPSFERWLAVLEKFGGVKFIIEEETPKLIKWIKRMKED 202 (231)
T ss_pred chHHHHHHHHHHHHHHHHHHHHhc-CCCCCCCCCcCHhhhhHHhhHHHHHHHHHHhcCcccCCCCCCccHHHHHHHHhcC
Confidence 1 34567799999999999984 578999999999999999999887655444442 33347899999999999999
Q ss_pred ccccccCCChHHHHHHHHhhhcc
Q psy15093 149 EAFTQSCPADQDIINHYKLQQVW 171 (179)
Q Consensus 149 p~~~~~~~~~~~~~~~~~~~~~~ 171 (179)
|+++.++++.+.+++++.+....
T Consensus 203 ~~V~~~~p~~e~~~e~~~~~~~~ 225 (231)
T KOG0406|consen 203 EAVKAVLPDSEKVVEFMKKYRQG 225 (231)
T ss_pred hhHHhhcCCHHHHHHHHHHHHHh
Confidence 99999999999998887665543
No 7
>PRK10542 glutathionine S-transferase; Provisional
Probab=99.95 E-value=1.6e-27 Score=180.22 Aligned_cols=145 Identities=16% Similarity=0.217 Sum_probs=106.1
Q ss_pred CchhHhhhCCCCCCCeEE-eCCeeeecHHHHHHHHHhhCCCCCCCCCCch-HHHHHH-------HHHHHHHHHHHcCCC-
Q psy15093 5 RDKKARTNFEATPPPILI-DNGLAVLENEKIERHIMKNVPGGHNLFVQDK-EVATLI-------ENLYSKLKLMLLKKD- 74 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~-~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~-~~~~~~-------~~~~~~~~~~~~~~~- 74 (179)
++++|+++||.|+||||+ +||.+|+||.||++||+++|++.+.+.|.++ +.+.+. ..+...+..++....
T Consensus 39 ~~~~~~~~nP~g~vPvL~~~~g~~l~eS~aI~~YL~~~~~~~~l~~p~~~~~ra~~~~~~~~~~~~~~~~~~~~~~~~~~ 118 (201)
T PRK10542 39 NGDDYLAINPKGQVPALLLDDGTLLTEGVAIMQYLADSVPDRQLLAPVGSLSRYHTIEWLNYIATELHKGFTPLFRPDTP 118 (201)
T ss_pred CChHHHHhCcCCCCCeEEeCCCcEeecHHHHHHHHHHhCcccccCCCCCcHHHHHHHHHHHHHHhhhhhhhhhccCCCCh
Confidence 458999999999999997 6889999999999999999986433445443 322211 122222222222111
Q ss_pred ----hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccc
Q psy15093 75 ----DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEA 150 (179)
Q Consensus 75 ----~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~ 150 (179)
+...+.+.+.|+.+|+.|+ +++|++|+++|+|||++++.+.++... ++++ +.||+|.+|+++|.++|+
T Consensus 119 ~~~~~~~~~~~~~~l~~le~~L~--~~~~l~G~~~s~ADi~l~~~~~~~~~~-----~~~~-~~~p~l~~w~~~~~~~p~ 190 (201)
T PRK10542 119 EEYKPTVRAQLEKKFQYVDEALA--DEQWICGQRFTIADAYLFTVLRWAYAV-----KLNL-EGLEHIAAYMQRVAERPA 190 (201)
T ss_pred HHHHHHHHHHHHHHHHHHHHHhc--CCCeeeCCCCcHHhHHHHHHHHHhhcc-----CCCc-ccchHHHHHHHHHHcCHH
Confidence 1234668889999999998 678999999999999999988765321 2332 579999999999999999
Q ss_pred ccccCCC
Q psy15093 151 FTQSCPA 157 (179)
Q Consensus 151 ~~~~~~~ 157 (179)
|++++..
T Consensus 191 ~k~~~~~ 197 (201)
T PRK10542 191 VAAALKA 197 (201)
T ss_pred HHHHHHH
Confidence 9988643
No 8
>PLN02473 glutathione S-transferase
Probab=99.95 E-value=5.1e-27 Score=179.25 Aligned_cols=148 Identities=17% Similarity=0.182 Sum_probs=106.8
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCC-CCCCCCchH-HHHHH------HHHHHHH------HHH
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGG-HNLFVQDKE-VATLI------ENLYSKL------KLM 69 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~-~~L~p~~~~-~~~~~------~~~~~~~------~~~ 69 (179)
.++++|+++||+|+||+|+++|.+|+||.||++||+++|+.. ..|.|.++. .+.+. ...+... ...
T Consensus 40 ~~~~~~~~~nP~g~vP~L~~~g~~l~ES~aI~~YL~~~~~~~~~~l~p~~~~~ra~~~~~~~~~~~~~~~~~~~~~~~~~ 119 (214)
T PLN02473 40 QKKPEHLLRQPFGQVPAIEDGDLKLFESRAIARYYATKYADQGTDLLGKTLEHRAIVDQWVEVENNYFYAVALPLVINLV 119 (214)
T ss_pred cCCHHHHhhCCCCCCCeEEECCEEEEehHHHHHHHHHHcCCcCCCCCCCCHHHHHHHHHHHHHHHhcccHHHHHHHHHHH
Confidence 467899999999999999999999999999999999999742 257776643 22211 1111100 011
Q ss_pred Hc----CCC-----hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHH
Q psy15093 70 LL----KKD-----DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWH 140 (179)
Q Consensus 70 ~~----~~~-----~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~ 140 (179)
+. .+. +...+++.+.++.+|++|+ +++|++||++|+|||++++.+.++..... ..++.+.||+|.+
T Consensus 120 ~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~--~~~~l~Gd~~t~ADi~~~~~~~~~~~~~~---~~~~~~~~P~l~~ 194 (214)
T PLN02473 120 FKPRLGEPCDVALVEELKVKFDKVLDVYENRLA--TNRYLGGDEFTLADLTHMPGMRYIMNETS---LSGLVTSRENLNR 194 (214)
T ss_pred hcccccCCCChHHHHHHHHHHHHHHHHHHHHhc--cCCcccCCCCCHHHHHHHHHHHHHHhccc---cHHHHhcCHHHHH
Confidence 11 111 1234567889999999998 57899999999999999998876532111 1122368999999
Q ss_pred HHHHHhccccccccCC
Q psy15093 141 YMKHMYELEAFTQSCP 156 (179)
Q Consensus 141 w~~~~~~~p~~~~~~~ 156 (179)
|+++|.+||+|++++.
T Consensus 195 w~~~~~~~p~~~~~~~ 210 (214)
T PLN02473 195 WWNEISARPAWKKLME 210 (214)
T ss_pred HHHHHhcChhhHHHHH
Confidence 9999999999998864
No 9
>PLN02395 glutathione S-transferase
Probab=99.95 E-value=4.5e-27 Score=179.62 Aligned_cols=148 Identities=14% Similarity=0.142 Sum_probs=106.3
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCC-CCCCCCchHH-HHHHH-----------HHHHHHHHH-
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGG-HNLFVQDKEV-ATLIE-----------NLYSKLKLM- 69 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~-~~L~p~~~~~-~~~~~-----------~~~~~~~~~- 69 (179)
.++++|+++||.|+||+|+++|.+|+||.||++||+++|+.. +.|.|.++.. ..+.. .+.......
T Consensus 39 ~~~~~~~~~nP~g~vP~L~~~~~~l~ES~aI~~YL~~~~~~~~~~l~p~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 118 (215)
T PLN02395 39 HKQPEYLALQPFGVVPVIVDGDYKIFESRAIMRYYAEKYRSQGPDLLGKTIEERGQVEQWLDVEATSYHPPLLNLTLHIL 118 (215)
T ss_pred cCCHHHHhhCCCCCCCEEEECCEEEEcHHHHHHHHHHHcCCCCcCcCCCChhHHHHHHHHHHHHHHhcCchHHHHHHHHH
Confidence 457899999999999999999999999999999999999742 3578866432 21110 011111111
Q ss_pred H----cCC-C----hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHH
Q psy15093 70 L----LKK-D----DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWH 140 (179)
Q Consensus 70 ~----~~~-~----~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~ 140 (179)
+ ... . +...+++.+.++.||++|+ +++|++|+++|+|||++++++.++... .........||+|.+
T Consensus 119 ~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~--~~~~l~G~~~s~ADi~l~~~~~~~~~~---~~~~~~~~~~p~L~~ 193 (215)
T PLN02395 119 FASKMGFPADEKVIKESEEKLAKVLDVYEARLS--KSKYLAGDFVSLADLAHLPFTEYLVGP---IGKAYLIKDRKHVSA 193 (215)
T ss_pred hhhhccCCCcHHHHHHHHHHHHHHHHHHHHHhc--CCccccCCCcCHHHHHHHHHHHHHhcc---cchhhhhccCchHHH
Confidence 1 011 1 2234668889999999998 678999999999999999987765311 111111357999999
Q ss_pred HHHHHhccccccccCC
Q psy15093 141 YMKHMYELEAFTQSCP 156 (179)
Q Consensus 141 w~~~~~~~p~~~~~~~ 156 (179)
|+++|.+||+|++++.
T Consensus 194 w~~~~~~rp~~k~~~~ 209 (215)
T PLN02395 194 WWDDISSRPAWKEVLA 209 (215)
T ss_pred HHHHHHcChHHHHHHH
Confidence 9999999999998864
No 10
>KOG0868|consensus
Probab=99.95 E-value=1.1e-26 Score=167.70 Aligned_cols=146 Identities=18% Similarity=0.244 Sum_probs=114.9
Q ss_pred chhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCCCCchHHHHHHHHHHHH------------HHHHHcCC
Q psy15093 6 DKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLFVQDKEVATLIENLYSK------------LKLMLLKK 73 (179)
Q Consensus 6 ~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~~~~~~~~~~~~------------~~~~~~~~ 73 (179)
..+|.++||++|||+|++||.+|+||.||++||+++||+ |.|+|+++........+... ...++..+
T Consensus 46 ~~ef~~iNPm~kVP~L~i~g~tl~eS~AII~YLeEt~P~-ppLLP~d~~KRA~~r~i~~~i~sgIQPlQNl~vl~~l~ek 124 (217)
T KOG0868|consen 46 DSEFKEINPMEKVPTLVIDGLTLTESLAIIEYLEETYPD-PPLLPKDPHKRAKARAISLLIASGIQPLQNLSVLKMLNEK 124 (217)
T ss_pred hhHHhhcCchhhCCeEEECCEEeehHHHHHHHHHhcCCC-CCCCCcCHHHHHHHHHHHHHHHhCCCcchhhHHHHHhccc
Confidence 468999999999999999999999999999999999996 67999997643322222111 11222222
Q ss_pred C-----hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcc
Q psy15093 74 D-----DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYEL 148 (179)
Q Consensus 74 ~-----~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~ 148 (179)
. ......+.+.|..||+.|..+.|+|.+||++|+||+++.|.+..+.. + ..++ ..||-+.+-.+.+.+.
T Consensus 125 ~~~~~~~W~q~~ItkGF~ALEklL~~~aGkycvGDevtiADl~L~pqv~nA~r----f-~vdl-~PYPti~ri~e~l~el 198 (217)
T KOG0868|consen 125 EPGYGDQWAQHFITKGFTALEKLLKSHAGKYCVGDEVTIADLCLPPQVYNANR----F-HVDL-TPYPTITRINEELAEL 198 (217)
T ss_pred ccchhhHHHHHHHHHhHHHHHHHHHHccCCcccCceeehhhhccchhhhhhhh----c-cccC-CcCchHHHHHHHHHhC
Confidence 1 12345688999999999998889999999999999999998876532 2 2344 6899999999999999
Q ss_pred ccccccCCCh
Q psy15093 149 EAFTQSCPAD 158 (179)
Q Consensus 149 p~~~~~~~~~ 158 (179)
|+|+.+.|+.
T Consensus 199 paFq~ahP~n 208 (217)
T KOG0868|consen 199 PAFQAAHPDN 208 (217)
T ss_pred HHHHhcCCCC
Confidence 9999998875
No 11
>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=99.94 E-value=5.4e-26 Score=172.97 Aligned_cols=147 Identities=16% Similarity=0.151 Sum_probs=108.5
Q ss_pred CchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCCCCchHH-HHHHH-------HHHH----HHHHHHcC
Q psy15093 5 RDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLFVQDKEV-ATLIE-------NLYS----KLKLMLLK 72 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~~-~~~~~-------~~~~----~~~~~~~~ 72 (179)
++++|+++||+|+||+|+++|.+|+||.||++||++++++ +.|.|.++.. ..+.. ++.. .+..++..
T Consensus 39 ~~~~~~~~nP~g~vP~L~~~g~~l~ES~aI~~yl~~~~~~-~~l~p~~~~~~a~~~~~~~~~~~~~~~~~~~~~~~~~~~ 117 (210)
T TIGR01262 39 RSPEFLALNPQGLVPTLDIDGEVLTQSLAIIEYLEETYPD-PPLLPADPIKRARVRALALLIACDIHPLNNLRVLQYLRE 117 (210)
T ss_pred CChhhhhcCCCCcCCEEEECCEEeecHHHHHHHHHHhCCC-CCCCCCCHHHHHHHHHHHHHHhcccChhhhhhHHHHHHh
Confidence 4688999999999999999999999999999999999985 4577765432 21110 1110 11111111
Q ss_pred ---CC-----hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHH
Q psy15093 73 ---KD-----DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKH 144 (179)
Q Consensus 73 ---~~-----~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~ 144 (179)
.. +...+.+.+.|+.+|++|+.++++|++|+++|+|||++++.+.++... +.++ ++||+|.+|+++
T Consensus 118 ~~~~~~~~~~~~~~~~~~~~l~~le~~L~~~~~~~l~G~~~T~ADi~~~~~l~~~~~~-----~~~~-~~~p~l~~~~~~ 191 (210)
T TIGR01262 118 KLGVEEEARNRWYQHWISKGFAALEALLQPHAGAFCVGDTPTLADLCLVPQVYNAERF-----GVDL-TPYPTLRRIAAA 191 (210)
T ss_pred hcCCCHHHHHHHHHHHHHHHHHHHHHHHhcCCCCEeeCCCCCHHHHHHHHHHHHHHHc-----CCCc-ccchHHHHHHHH
Confidence 11 112345888999999999854467999999999999999998765421 2222 689999999999
Q ss_pred HhccccccccCCCh
Q psy15093 145 MYELEAFTQSCPAD 158 (179)
Q Consensus 145 ~~~~p~~~~~~~~~ 158 (179)
|.+||+|++++...
T Consensus 192 ~~~rp~~~~~~~~~ 205 (210)
T TIGR01262 192 LAALPAFQRAHPEN 205 (210)
T ss_pred HhcCHHHHHhCccc
Confidence 99999999998653
No 12
>COG0625 Gst Glutathione S-transferase [Posttranslational modification, protein turnover, chaperones]
Probab=99.94 E-value=4.4e-26 Score=173.87 Aligned_cols=140 Identities=18% Similarity=0.197 Sum_probs=103.5
Q ss_pred CCchhHhhhCCCCCCCeEEeCCe-eeecHHHHHHHHHhhCCCCCCCCCCchH----HHHHH-------HHHHHHHHHHHc
Q psy15093 4 TRDKKARTNFEATPPPILIDNGL-AVLENEKIERHIMKNVPGGHNLFVQDKE----VATLI-------ENLYSKLKLMLL 71 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~-~l~ES~aI~~YL~~~~p~~~~L~p~~~~----~~~~~-------~~~~~~~~~~~~ 71 (179)
.++++|+++||+|+||||+++|. +|+||.||++||+++||.. .|.|.++. ..... ..+...+.....
T Consensus 37 ~~~~~~~~~nP~gkVPvL~~~~~~~l~ES~AI~~YL~~~~~~~-~l~p~~~~~r~~r~~~~~~~~~~~~~~~~~~~~~~~ 115 (211)
T COG0625 37 QKPPDFLALNPLGKVPALVDDDGEVLTESGAILEYLAERYPGP-PLLPADPLARRARALLLWWLFFAASDLHPVIGQRRR 115 (211)
T ss_pred cCCHHHHhcCCCCCCCEEeeCCCCeeecHHHHHHHHHhhCCCC-CcCCCCchhHHHHHHHHHHHHHHHhcccHHHHHHHh
Confidence 46799999999999999988765 9999999999999999853 38887752 21111 111111111100
Q ss_pred C----C---C----hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHH
Q psy15093 72 K----K---D----DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWH 140 (179)
Q Consensus 72 ~----~---~----~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~ 140 (179)
. . . +...+.+.+.+..+|+.|+ +++|++|+++|+|||++++.+.++... +.+. +.||++.+
T Consensus 116 ~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~--~~~~l~G~~~tiAD~~~~~~~~~~~~~-----~~~~-~~~p~l~~ 187 (211)
T COG0625 116 ALLGSEPELLEAALEAARAEIRALLALLEALLA--DGPYLAGDRFTIADIALAPLLWRLALL-----GEEL-ADYPALKA 187 (211)
T ss_pred hhccccccccHHHHHHHHHHHHHHHHHHHHHhc--cCCcccCCCCCHHHHHHHHHHHHhhhc-----Cccc-ccChHHHH
Confidence 0 0 1 2345678889999999999 689999999999999999988875432 1222 57999999
Q ss_pred HHHHHhcccccc
Q psy15093 141 YMKHMYELEAFT 152 (179)
Q Consensus 141 w~~~~~~~p~~~ 152 (179)
|++||.+||+++
T Consensus 188 w~~r~~~rp~~~ 199 (211)
T COG0625 188 WYERVLARPAFR 199 (211)
T ss_pred HHHHHHcCCchh
Confidence 999999999976
No 13
>PRK13972 GSH-dependent disulfide bond oxidoreductase; Provisional
Probab=99.94 E-value=6.4e-26 Score=173.50 Aligned_cols=142 Identities=13% Similarity=0.137 Sum_probs=100.7
Q ss_pred CchhHhhhCCCCCCCeEEe-----CC--eeeecHHHHHHHHHhhCCCCCCCCCCch-HHHHHHHHHH---HHHHHH----
Q psy15093 5 RDKKARTNFEATPPPILID-----NG--LAVLENEKIERHIMKNVPGGHNLFVQDK-EVATLIENLY---SKLKLM---- 69 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~~-----~g--~~l~ES~aI~~YL~~~~p~~~~L~p~~~-~~~~~~~~~~---~~~~~~---- 69 (179)
++++|+++||.|+||||++ || .+|+||.||++||+++|+ .+.|.++ +.+.+...+. ..+...
T Consensus 39 ~~~~~~~iNP~gkVP~L~~~~~~d~g~~~~L~ES~AI~~YL~~~~~---~l~p~~~~~ra~~~~~~~~~~~~~~~~~~~~ 115 (215)
T PRK13972 39 FRPEFLRISPNNKIPAIVDHSPADGGEPLSLFESGAILLYLAEKTG---LFLSHETRERAATLQWLFWQVGGLGPMLGQN 115 (215)
T ss_pred CCHHHHhhCcCCCCCEEEeCCCCCCCCceeEEcHHHHHHHHHHhcC---CCCCCCHHHHHHHHHHHHHHhhccCcceeee
Confidence 4689999999999999986 45 489999999999999985 3566554 3332221110 000000
Q ss_pred --HcC--C--C----hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHH
Q psy15093 70 --LLK--K--D----DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLW 139 (179)
Q Consensus 70 --~~~--~--~----~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~ 139 (179)
+.. + . +...+.+.+.+..||++|. +++|++||++|+|||++++.+...... +++ .+.||+|.
T Consensus 116 ~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~--~~~~l~Gd~~t~ADi~l~~~~~~~~~~-----~~~-~~~~P~l~ 187 (215)
T PRK13972 116 HHFNHAAPQTIPYAIERYQVETQRLYHVLNKRLE--NSPWLGGENYSIADIACWPWVNAWTRQ-----RID-LAMYPAVK 187 (215)
T ss_pred eeeeccCCCCCchHHHHHHHHHHHHHHHHHHHhc--cCccccCCCCCHHHHHHHHHHHHHhhc-----CCc-chhCHHHH
Confidence 000 1 1 1233567888999999998 678999999999999998877543211 223 26899999
Q ss_pred HHHHHHhccccccccCCC
Q psy15093 140 HYMKHMYELEAFTQSCPA 157 (179)
Q Consensus 140 ~w~~~~~~~p~~~~~~~~ 157 (179)
+|+++|.+||+|+++...
T Consensus 188 ~w~~r~~~rp~~~~~~~~ 205 (215)
T PRK13972 188 NWHERIRSRPATGQALLK 205 (215)
T ss_pred HHHHHHHhCHHHHHHHHH
Confidence 999999999999887643
No 14
>PRK15113 glutathione S-transferase; Provisional
Probab=99.94 E-value=2.1e-25 Score=170.61 Aligned_cols=143 Identities=13% Similarity=0.132 Sum_probs=104.2
Q ss_pred CchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCC--CCCCCchHH-HHHH-------HHHHHHHH-----HH
Q psy15093 5 RDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGGH--NLFVQDKEV-ATLI-------ENLYSKLK-----LM 69 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~--~L~p~~~~~-~~~~-------~~~~~~~~-----~~ 69 (179)
++++|+++||.|+||||++||.+|+||.||++||+++|+..+ .|.|.++.. +.+. .++...+. ..
T Consensus 46 ~~~~~~~~nP~g~VP~L~~~~~~l~ES~aI~~YL~~~~~~~~~~~l~p~~~~~ra~~~~~~~~~~~~~~~~~~~~~~~~~ 125 (214)
T PRK15113 46 LQPTYQGYSLTRRVPTLQHDDFELSESSAIAEYLEERFAPPAWERIYPADLQARARARQIQAWLRSDLMPLREERPTDVV 125 (214)
T ss_pred cCHHHHhcCCCCCCCEEEECCEEEecHHHHHHHHHHHcCCCCccccCCCCHHHHHHHHHHHHHHHhhhHHHhccCccchh
Confidence 468999999999999999999999999999999999998522 277876542 2211 11111000 00
Q ss_pred HcC---C--ChHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHH
Q psy15093 70 LLK---K--DDVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKH 144 (179)
Q Consensus 70 ~~~---~--~~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~ 144 (179)
... . .+...+.+.+.+..+|++|+. +++|++|+ +|+|||++++.+.++... +.++ .|+|.+|++|
T Consensus 126 ~~~~~~~~~~~~~~~~~~~~l~~le~~L~~-~~~~l~G~-~TlADi~l~~~l~~~~~~-----~~~~---~p~l~~~~~r 195 (214)
T PRK15113 126 FAGAKKAPLSEAGKAAAEKLFAVAERLLAP-GQPNLFGE-WCIADTDLALMLNRLVLH-----GDEV---PERLADYATF 195 (214)
T ss_pred ccCCCCCcccHHHHHHHHHHHHHHHHHHhc-CCCEeeCC-ccHHHHHHHHHHHHHHHc-----CCCC---CHHHHHHHHH
Confidence 111 1 134556788999999999973 24799996 999999999998776431 2232 2999999999
Q ss_pred HhccccccccCCC
Q psy15093 145 MYELEAFTQSCPA 157 (179)
Q Consensus 145 ~~~~p~~~~~~~~ 157 (179)
|.+||+|+++...
T Consensus 196 ~~~rp~~~~~~~~ 208 (214)
T PRK15113 196 QWQRASVQRWLAL 208 (214)
T ss_pred HhcCHHHHHHHHH
Confidence 9999999988643
No 15
>PRK11752 putative S-transferase; Provisional
Probab=99.93 E-value=9e-25 Score=172.20 Aligned_cols=148 Identities=14% Similarity=0.152 Sum_probs=103.5
Q ss_pred CchhHhhhCCCCCCCeEEeC----CeeeecHHHHHHHHHhhCCCCCCCCCCchH-HHHHHHHH---------H-HHHHHH
Q psy15093 5 RDKKARTNFEATPPPILIDN----GLAVLENEKIERHIMKNVPGGHNLFVQDKE-VATLIENL---------Y-SKLKLM 69 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~~~----g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~-~~~~~~~~---------~-~~~~~~ 69 (179)
++++|+++||+|+||+|+++ |.+|+||.||++||+++|+ .|.|.++. .+.+...+ . ..+...
T Consensus 88 ~~~e~~~iNP~GkVP~Lv~~dg~~~~~L~ES~AIl~YL~~~~~---~L~P~~~~era~v~~wl~~~~~~~~~~~~~~~~~ 164 (264)
T PRK11752 88 FSSGFVEINPNSKIPALLDRSGNPPIRVFESGAILLYLAEKFG---AFLPKDLAARTETLNWLFWQQGSAPFLGGGFGHF 164 (264)
T ss_pred cCHHHHhhCCCCCCCEEEeCCCCCCeEEEcHHHHHHHHHHhcC---CcCCCCHHHHHHHHHHHHHHhhhhhHHHHHHHHH
Confidence 46899999999999999874 3699999999999999996 37776643 22211110 0 011111
Q ss_pred H-cCCC------hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhh-cccCcccccccHHHHHH
Q psy15093 70 L-LKKD------DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGS-YFMQFEIPTYMKHLWHY 141 (179)
Q Consensus 70 ~-~~~~------~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~-~~~~~~~~~~~p~l~~w 141 (179)
. ..+. +...+++.+.|+.+|++|+ +++||+||+||+|||++++.+.++..... ....+.-.+.||+|.+|
T Consensus 165 ~~~~~~~~~~~~~~~~~~~~~~L~~le~~L~--~~~fl~Gd~~TlADi~l~~~l~~l~~~~~~~~~~~~~~~~~P~L~~w 242 (264)
T PRK11752 165 YAYAPEKIEYAINRFTMEAKRQLDVLDKQLA--EHEYIAGDEYTIADIAIWPWYGNLVLGNLYDAAEFLDVGSYKHVQRW 242 (264)
T ss_pred HHhCCccchHHHHHHHHHHHHHHHHHHHHhc--cCCCCCCCccCHHHHHHHHHHHHHhhccccccccccCcccCHHHHHH
Confidence 1 1111 1223467889999999998 67899999999999999998876642110 00011112689999999
Q ss_pred HHHHhccccccccCCC
Q psy15093 142 MKHMYELEAFTQSCPA 157 (179)
Q Consensus 142 ~~~~~~~p~~~~~~~~ 157 (179)
+++|.+||+|+++...
T Consensus 243 ~~rv~~rPs~k~~~~~ 258 (264)
T PRK11752 243 AKEIAERPAVKRGRIV 258 (264)
T ss_pred HHHHHhCHHHHHHHhc
Confidence 9999999999987643
No 16
>PRK10357 putative glutathione S-transferase; Provisional
Probab=99.93 E-value=8.3e-25 Score=165.65 Aligned_cols=147 Identities=12% Similarity=0.097 Sum_probs=105.9
Q ss_pred CchhHhhhCCCCCCCeEE-eCCeeeecHHHHHHHHHhhCCCCCCCCCCchHHHH-H------HHHHHHHHH---H-HHcC
Q psy15093 5 RDKKARTNFEATPPPILI-DNGLAVLENEKIERHIMKNVPGGHNLFVQDKEVAT-L------IENLYSKLK---L-MLLK 72 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~-~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~~~~-~------~~~~~~~~~---~-~~~~ 72 (179)
+++++.++||.|+||+|+ ++|.+|+||.||++||+++++. +.|.|.++.... + ....+.... . ....
T Consensus 36 ~~~~~~~~nP~g~vP~L~~~~g~~l~eS~aI~~yL~~~~~~-~~l~p~~~~~~a~~~~~~~~~~~~~~~~~~~~~~~~~~ 114 (202)
T PRK10357 36 ADNGVAQYNPLGKVPALVTEEGECWFDSPIIAEYIELLNVA-PAMLPRDPLAALRVRQLEALADGIMDAALVSVREQARP 114 (202)
T ss_pred CchhhhhcCCccCCCeEEeCCCCeeecHHHHHHHHHHhCCC-CCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHhCc
Confidence 457888999999999997 6889999999999999999975 457887654221 1 111111111 1 1111
Q ss_pred C---C----hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHH
Q psy15093 73 K---D----DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHM 145 (179)
Q Consensus 73 ~---~----~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~ 145 (179)
. . +...+.+.+.|+.||++|. +++ ++||++|+|||++++.+.++.... . +.....+||+|.+|+++|
T Consensus 115 ~~~~~~~~~~~~~~~l~~~l~~le~~L~--~~~-l~Gd~~t~ADi~l~~~l~~~~~~~--~-~~~~~~~~p~l~~~~~~i 188 (202)
T PRK10357 115 AAQQSEDELLRQREKINRSLDALEGYLV--DGT-LKTDTVNLATIAIACAVGYLNFRR--V-APGWCVDRPHLVKLVENL 188 (202)
T ss_pred cccccHHHHHHHHHHHHHHHHHHHHhhc--cCc-ccCCCcCHHHHHHHHHHHHHHhcc--c-CcchhhcChHHHHHHHHH
Confidence 1 1 1234568889999999998 567 999999999999999988764311 1 111125799999999999
Q ss_pred hccccccccCCCh
Q psy15093 146 YELEAFTQSCPAD 158 (179)
Q Consensus 146 ~~~p~~~~~~~~~ 158 (179)
.+||+|+++.+..
T Consensus 189 ~~rp~~~~~~~~~ 201 (202)
T PRK10357 189 FQRESFARTEPPK 201 (202)
T ss_pred hcChhhhhcCCCC
Confidence 9999999998763
No 17
>PTZ00057 glutathione s-transferase; Provisional
Probab=99.92 E-value=1.8e-24 Score=164.47 Aligned_cols=137 Identities=11% Similarity=0.102 Sum_probs=96.5
Q ss_pred hhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCCCCch-HHHHH---H---HHHHHHHHH--HHcCC-ChHHHHH
Q psy15093 11 TNFEATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLFVQDK-EVATL---I---ENLYSKLKL--MLLKK-DDVSINA 80 (179)
Q Consensus 11 ~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~-~~~~~---~---~~~~~~~~~--~~~~~-~~~~~~~ 80 (179)
++||+|+||+|++||.+|+||.||++||+++|+.. +.+. +...+ . .+++..+.. ..... .+...+.
T Consensus 52 ~~nP~g~vP~L~~~~~~l~eS~AI~~YLa~~~~~~----~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 127 (205)
T PTZ00057 52 KDTPFEQVPILEMDNIIFAQSQAIVRYLSKKYKIC----GESELNEFYADMIFCGVQDIHYKFNNTNLFKQNETTFLNEE 127 (205)
T ss_pred CCCCCCCCCEEEECCEEEecHHHHHHHHHHHcCCC----CCCHHHHHHHHHHHHHHHHHHHHHhhhHHHHHHHHHHHHHH
Confidence 48999999999999999999999999999999732 2222 11110 0 111111111 00000 0223466
Q ss_pred HHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccCC
Q psy15093 81 LMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSCP 156 (179)
Q Consensus 81 l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~~ 156 (179)
+.+.++.+|+.|++++++|++||++|+|||++++.+.++.... +.++ +.||+|.+|++||.+||++++.+.
T Consensus 128 ~~~~l~~le~~L~~~~~~~l~Gd~~T~AD~~l~~~~~~~~~~~----~~~l-~~~P~l~~~~~r~~~~P~~k~y~~ 198 (205)
T PTZ00057 128 LPKWSGYFENILKKNHCNYFVGDNLTYADLAVFNLYDDIETKY----PNSL-KNFPLLKAHNEFISNLPNIKNYIS 198 (205)
T ss_pred HHHHHHHHHHHHHhCCCCeeeCCcccHHHHHHHHHHHHHHHhC----hhhh-ccChhHHHHHHHHHhChHHHHHHH
Confidence 8889999999998544589999999999999999887754211 2222 689999999999999999998764
No 18
>KOG0867|consensus
Probab=99.91 E-value=1.9e-23 Score=161.12 Aligned_cols=150 Identities=16% Similarity=0.141 Sum_probs=111.0
Q ss_pred CCCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCC-CCCCCCCCchHH-HHHHHHHH-------HH--HHHH--
Q psy15093 3 NTRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVP-GGHNLFVQDKEV-ATLIENLY-------SK--LKLM-- 69 (179)
Q Consensus 3 ~~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p-~~~~L~p~~~~~-~~~~~~~~-------~~--~~~~-- 69 (179)
..++++|+++||.|+||+|+|+|..++||.||+.||+++|. .+..|+|.+... +.+...++ .. +..+
T Consensus 39 e~~~pefl~~nP~~kVP~l~d~~~~l~eS~AI~~Yl~~ky~~~~~~l~p~~~~~ra~v~~~l~~~~~~l~~~~~~~~~~~ 118 (226)
T KOG0867|consen 39 EQKSPEFLKLNPLGKVPALEDGGLTLWESHAILRYLAEKYGPLGGILLPKDLKERAIVDQWLEFENGVLDPVTFERPILA 118 (226)
T ss_pred ccCCHHHHhcCcCCCCCeEecCCeEEeeHHHHHHHHHHHcCCCCcccCCcCHHHHHHHHHHHHhhhcccccccccceeee
Confidence 35689999999999999999999999999999999999996 333388887643 22221111 11 0000
Q ss_pred --H-cCC-C----hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHH
Q psy15093 70 --L-LKK-D----DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHY 141 (179)
Q Consensus 70 --~-~~~-~----~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w 141 (179)
+ ... . .....++.+.++.+|+.|. ++.|++|+++|+||+.+++.+..+.. ... ......+||++.+|
T Consensus 119 p~~~~~~~~~~~~~~~~~~~~~~~~~~e~~l~--~~~yl~g~~~tlADl~~~~~~~~~~~--~~~-~~~~~~~~p~v~~W 193 (226)
T KOG0867|consen 119 PLLVGLPLNPTAVKELEAKLRKALDNLERFLK--TQVYLAGDQLTLADLSLASTLSQFQG--KFA-TEKDFEKYPKVARW 193 (226)
T ss_pred cceecccCcchhhHHHHHHHHHHHHHHHHHHc--cCCcccCCcccHHHHHHhhHHHHHhH--hhh-hhhhhhhChHHHHH
Confidence 0 010 1 3456789999999999999 67999999999999999998887631 111 11223689999999
Q ss_pred HHHHhccccccccCCC
Q psy15093 142 MKHMYELEAFTQSCPA 157 (179)
Q Consensus 142 ~~~~~~~p~~~~~~~~ 157 (179)
++++.++|+++++...
T Consensus 194 ~~~~~~~P~~~e~~~~ 209 (226)
T KOG0867|consen 194 YERIQKRPAYEEANEK 209 (226)
T ss_pred HHHHHhCccHHHHHHH
Confidence 9999999998887643
No 19
>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=99.88 E-value=1.1e-21 Score=139.03 Aligned_cols=114 Identities=34% Similarity=0.693 Sum_probs=96.5
Q ss_pred hHHHHHHHHHHHHHHHHHcCCC----hHHHHHHHHHHHHHHHHHcc--------------CCCceecCCCCChhhhhHhh
Q psy15093 53 KEVATLIENLYSKLKLMLLKKD----DVSINALMSHLRKINDHLGR--------------KETRFLTGDTMCCFDCELMP 114 (179)
Q Consensus 53 ~~~~~~~~~~~~~~~~~~~~~~----~~~~~~l~~~l~~le~~L~~--------------~~~~fl~Gd~~TlAD~~~~~ 114 (179)
++...+++++|++|..++++++ +...+.+.+.|+.||++|++ .+++|++|+++|+|||+++|
T Consensus 2 ~~~~~~~~~~f~~~~~~~~~~~~~~~e~~~~~l~~~L~~ld~~L~~~~~~~~~~~~~~~~~~~~fL~Gd~fTlADi~l~p 81 (134)
T cd03198 2 PESNTAGEDIFAKFSAYIKNSNPALNENLEKGLLKALKKLDDYLNSPLPDEIDSAEDEGVSQRKFLDGDELTLADCNLLP 81 (134)
T ss_pred hhhhhhHHHHHHHHHHHHcCCChhhhHHHHHHHHHHHHHHHHHHccCccccccccccccccCCCCCCCCCCCHHHHHHHH
Confidence 3445678899999999998753 45667899999999999984 23679999999999999999
Q ss_pred HHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccCCChHHHHHHHH
Q psy15093 115 RLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSCPADQDIINHYK 166 (179)
Q Consensus 115 ~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~~~~~~~~~~~~ 166 (179)
.+.++..+.....+++++++||+|.+|+++|.+||+|+++++..++|+.+|.
T Consensus 82 ~L~~~~~~~~~~~g~~i~~~~P~L~aw~~ri~aRPsfk~t~~~~~~i~~~~~ 133 (134)
T cd03198 82 KLHIVKVVAKKYRNFEIPADLTGLWRYLKNAYQREEFTNTCPADQEIELAYK 133 (134)
T ss_pred HHHHHHHHHHhhcCCCccccCHHHHHHHHHHHCCHHHHHHcCCHHHHHHHhc
Confidence 9998875544444667678999999999999999999999999999999985
No 20
>PRK10387 glutaredoxin 2; Provisional
Probab=99.87 E-value=1.3e-21 Score=148.79 Aligned_cols=132 Identities=16% Similarity=0.149 Sum_probs=91.5
Q ss_pred hhhCCCCCCCeE-EeCCeeeecHHHHHHHHHhhCCCCCCCC-CCchHHHHHHHH----HHHHHHHHHcC----C------
Q psy15093 10 RTNFEATPPPIL-IDNGLAVLENEKIERHIMKNVPGGHNLF-VQDKEVATLIEN----LYSKLKLMLLK----K------ 73 (179)
Q Consensus 10 ~~~nP~g~vPvL-~~~g~~l~ES~aI~~YL~~~~p~~~~L~-p~~~~~~~~~~~----~~~~~~~~~~~----~------ 73 (179)
.+.||.|+|||| +++|.+|+||.||++||+++||+ +.+. +........... +...+...+.. .
T Consensus 40 ~~~~p~~~VPvL~~~~g~~l~eS~aI~~yL~~~~~~-~~l~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 118 (210)
T PRK10387 40 IRMIGQKQVPILQKDDGSYMPESLDIVHYIDELDGK-PLLTGKRSPAIEEWLRKVFGYLNKLLYPRFAKADLPEFATPSA 118 (210)
T ss_pred HHhcCCcccceEEecCCeEecCHHHHHHHHHHhCCC-ccCCCcccHHHHHHHHHHHHHhhcchhcccccCCCcccCCHHH
Confidence 678999999999 68899999999999999999985 4444 222211111100 00000000000 0
Q ss_pred ---------------------ChHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccc
Q psy15093 74 ---------------------DDVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIP 132 (179)
Q Consensus 74 ---------------------~~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~ 132 (179)
.+...+++.+.|+.+|++|+ + +|++||++|+|||++++.+.++... .++
T Consensus 119 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~le~~L~--~-~~l~G~~~s~ADi~l~~~l~~~~~~----~~~--- 188 (210)
T PRK10387 119 RQYFIDKKEASIGDFDALLAHTPGLIKEINADLRALDPLIV--K-PNAVNGELSTDDIHLFPILRNLTLV----KGI--- 188 (210)
T ss_pred HHHHHHhHHhccCCHHHHHhcCHHHHHHHHHHHHHHHHHhc--C-ccccCCCCCHHHHHHHHHHhcceee----cCC---
Confidence 01234578889999999997 4 8999999999999999998876432 122
Q ss_pred cccHHHHHHHHHHhcccccc
Q psy15093 133 TYMKHLWHYMKHMYELEAFT 152 (179)
Q Consensus 133 ~~~p~l~~w~~~~~~~p~~~ 152 (179)
+.+|+|.+|++||.+||++.
T Consensus 189 ~~~p~l~~w~~r~~~r~~~~ 208 (210)
T PRK10387 189 EWPPRVADYRDNMSKKTQVP 208 (210)
T ss_pred CCCHHHHHHHHHHHHHhCCC
Confidence 23699999999999999874
No 21
>KOG4420|consensus
Probab=99.85 E-value=2.8e-20 Score=141.73 Aligned_cols=160 Identities=15% Similarity=0.155 Sum_probs=110.6
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCCCCchH---HH-----H-----------HHH----
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLFVQDKE---VA-----T-----------LIE---- 60 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~---~~-----~-----------~~~---- 60 (179)
-+++||..+||.|.||||++++.+|.||.-|++|++++|-++..|.|.... .. . .++
T Consensus 64 h~epwFmrlNp~gevPVl~~g~~II~d~tqIIdYvErtf~ger~l~pe~~S~~~d~~l~~e~~l~~lpm~~~t~g~~lh~ 143 (325)
T KOG4420|consen 64 HKEPWFMRLNPGGEVPVLIHGDNIISDYTQIIDYVERTFTGERVLMPEVGSLQHDRVLQYEELLDALPMDAYTHGCILHP 143 (325)
T ss_pred ccCchheecCCCCCCceEecCCeecccHHHHHHHHHHhhcccccccccccccccHHHHHHHHHHHhcCcchhhccccccc
Confidence 457999999999999999999999999999999999999655556664310 00 0 000
Q ss_pred HH--------HHHHHHHH-----------cC--CC-------------------------hHHHHHHHHHHHHHHHHHcc
Q psy15093 61 NL--------YSKLKLML-----------LK--KD-------------------------DVSINALMSHLRKINDHLGR 94 (179)
Q Consensus 61 ~~--------~~~~~~~~-----------~~--~~-------------------------~~~~~~l~~~l~~le~~L~~ 94 (179)
++ +..+..++ .. ++ ......+...|..+|+.|..
T Consensus 144 eL~~~s~iP~~~~iR~~~~k~~~~v~~l~~~e~pdla~ay~akqkkl~~kl~~hdd~s~lkkild~l~~~Ld~VEteLe~ 223 (325)
T KOG4420|consen 144 ELTTDSMIPKYAEIRRHLAKATTDVMKLDHEEEPDLAEAYLAKQKKLMAKLLEHDDVSYLKKILDELAMVLDQVETELEK 223 (325)
T ss_pred hhhccccCcccHHHHHHHHHHHHHHHHHHhhcCchhhHHHHHHHHHHHHHHHhcccHHHHHHHHHHHHHHHHHHHHHHhh
Confidence 00 00000000 00 00 01223455667777777773
Q ss_pred C--CCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccCCChHHHHHH
Q psy15093 95 K--ETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSCPADQDIINH 164 (179)
Q Consensus 95 ~--~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~~~~~~~~~~ 164 (179)
+ ...||||++||+||+++.+.|+++...+.....|.. ...|+|.+|++|+++|++|+++.+....+..+
T Consensus 224 r~~~~~wL~G~efslADVsLg~~LhRL~~Lg~e~~yw~~-gsrpnle~Yf~rvrrR~sf~kvlg~~fnilr~ 294 (325)
T KOG4420|consen 224 RKLCELWLCGCEFSLADVSLGATLHRLKFLGLEKKYWED-GSRPNLESYFERVRRRFSFRKVLGDIFNILRF 294 (325)
T ss_pred ccccceeeccccchHHHHHHHHHHHHHHHcccHHHhccc-CCCccHHHHHHHHHhhhHHHHhhhhHHHHHHH
Confidence 2 157999999999999999999999765433233332 47899999999999999999999877665554
No 22
>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=99.84 E-value=6e-20 Score=140.09 Aligned_cols=133 Identities=16% Similarity=0.165 Sum_probs=90.7
Q ss_pred hHhhhCCCCCCCeEE-eCCeeeecHHHHHHHHHhhCCCCCCCCCCc-hHHHHHHH---HHHH-HHHH-------------
Q psy15093 8 KARTNFEATPPPILI-DNGLAVLENEKIERHIMKNVPGGHNLFVQD-KEVATLIE---NLYS-KLKL------------- 68 (179)
Q Consensus 8 ~~~~~nP~g~vPvL~-~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~-~~~~~~~~---~~~~-~~~~------------- 68 (179)
..+++||.|+||+|+ +||.+|+||.+|++||+++||. +.+.+.. .+...... ..+. .+..
T Consensus 37 ~~~~~np~g~vP~l~~~~g~~l~es~~I~~yL~~~~~~-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 115 (209)
T TIGR02182 37 TPIRMIGAKQVPILQKDDGRAMPESLDIVAYFDKLDGE-PLLTGKVSPEIEAWLRKVTGYANKLLLPRFAKSDLPEFATQ 115 (209)
T ss_pred hHHHhcCCCCcceEEeeCCeEeccHHHHHHHHHHhCCC-ccCCCCChHHHHHHHHHHHHHhhhhhccccccCCCcccCCH
Confidence 457899999999997 8999999999999999999985 3444322 22111110 0110 0000
Q ss_pred ----HHcCC--------------ChHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcc
Q psy15093 69 ----MLLKK--------------DDVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFE 130 (179)
Q Consensus 69 ----~~~~~--------------~~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~ 130 (179)
++.++ .+...+.+.+.|+.+|++|. +++|++| ++|+|||++++.+.++.... +.
T Consensus 116 ~~~~~~~~~~~~~~g~~~~~~~~~~~~~~~~~~~l~~le~~L~--~~~~l~g-~~TiADi~l~~~l~~~~~~~----~~- 187 (209)
T TIGR02182 116 SARKYFTDKKEASAGNFSALLNHTPGLLEEINADLEELDKLID--GPNAVNG-ELSEDDILVFPLLRNLTLVA----GI- 187 (209)
T ss_pred HHHHHHHHHHHHhcCCHHHHHccCHHHHHHHHHHHHHHHHHHh--CccccCC-CCCHHHHHHHHHhcCeeeec----CC-
Confidence 00000 02344668889999999998 7889865 69999999999887654211 11
Q ss_pred cccccH-HHHHHHHHHhcccccc
Q psy15093 131 IPTYMK-HLWHYMKHMYELEAFT 152 (179)
Q Consensus 131 ~~~~~p-~l~~w~~~~~~~p~~~ 152 (179)
.+| +|.+|++||++|+++.
T Consensus 188 ---~~p~~l~~w~~Ri~ar~~~~ 207 (209)
T TIGR02182 188 ---NWPSRVADYLDNMSKKSKVP 207 (209)
T ss_pred ---CCChHHHHHHHHHHHHhCCC
Confidence 356 9999999999998763
No 23
>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=99.83 E-value=1e-19 Score=127.51 Aligned_cols=115 Identities=25% Similarity=0.484 Sum_probs=96.2
Q ss_pred chHHHHHHHHHHHHHHHHHcCCC--hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCc
Q psy15093 52 DKEVATLIENLYSKLKLMLLKKD--DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQF 129 (179)
Q Consensus 52 ~~~~~~~~~~~~~~~~~~~~~~~--~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~ 129 (179)
.+|.+.++..++..+..++..++ ++..+++.+.|..||++|.. +++||+||++|+|||+++|.+.++......+.++
T Consensus 4 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~l~~Le~~L~~-~~~fl~Gd~~TlADi~l~~~l~~l~~~~~~~~~~ 82 (121)
T cd03201 4 PPEKASVGSKIFSTFVGFLKSKDSNDGTEQALLDELEALEDHLKE-NGPFINGEKISAVDLSLAPKLYHLEIALGHYKNW 82 (121)
T ss_pred cHHHHHHHHHHHHHHHHHHHCCcHHHHHHHHHHHHHHHHHHHHhc-CCCccCCCCCCHHhHHHHHHHHHHHHHHHHhcCC
Confidence 46778888999999999887665 44567789999999999983 2689999999999999999988876543434456
Q ss_pred ccccccHHHHHHHHHHhccccccccCCChHHHHHHHHh
Q psy15093 130 EIPTYMKHLWHYMKHMYELEAFTQSCPADQDIINHYKL 167 (179)
Q Consensus 130 ~~~~~~p~l~~w~~~~~~~p~~~~~~~~~~~~~~~~~~ 167 (179)
.+++.||+|.+|+++|.+||+|+++++..++++.+|..
T Consensus 83 ~~~~~~P~l~~w~~rl~~rps~~~t~~~~~~~~~~~~~ 120 (121)
T cd03201 83 SVPESLTSVKSYMKALFSRESFVKTKAEKEDVIAGWAP 120 (121)
T ss_pred CCcccchHHHHHHHHHHCCchhhhcCCCHHHHHHHhcc
Confidence 55689999999999999999999999999999998864
No 24
>KOG1695|consensus
Probab=99.79 E-value=3.4e-18 Score=129.09 Aligned_cols=139 Identities=13% Similarity=0.208 Sum_probs=99.3
Q ss_pred hhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCCCCchHHH---HHH----HHHHHH-HHHHHcC----CCh--
Q psy15093 10 RTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLFVQDKEVA---TLI----ENLYSK-LKLMLLK----KDD-- 75 (179)
Q Consensus 10 ~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~~~---~~~----~~~~~~-~~~~~~~----~~~-- 75 (179)
+...|+|+||+|..||..|.+|.||++||+++|+ |.+++++.. +.. .++... +...... +.+
T Consensus 44 K~~~pfgqlP~l~vDg~~i~QS~AI~RyLArk~g----l~Gkt~~E~a~vD~i~d~~~D~~~~~~~~~~~~~~~g~~~~~ 119 (206)
T KOG1695|consen 44 KDKMPFGQLPVLEVDGKKLVQSRAILRYLARKFG----LAGKTEEEEAWVDMIVDQFKDFRWEIFRQPYTAPEAGKSEEE 119 (206)
T ss_pred cccCCCCCCCEEeECCEeeccHHHHHHHHHHHhC----cCCCCHHHHHHHHHHHHhhhhHHHHHHHHhhhhhhhccchhh
Confidence 4457999999999999999999999999999996 555554422 211 222222 1111111 111
Q ss_pred ---HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccccc
Q psy15093 76 ---VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFT 152 (179)
Q Consensus 76 ---~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~ 152 (179)
.......+.+..+++.|.+++++||+||++|.||+.++..+..+... + .-...+.||+|.++.+++.++|.++
T Consensus 120 ~~~~~~Pa~~~~~~~~~~~L~~~~sgflvGd~lT~aDl~i~e~l~~l~~~---~-~~~~~~~~P~L~a~~~kv~~~p~ik 195 (206)
T KOG1695|consen 120 LDKLYLPAKPKYFKILEKILKKNKSGFLVGDKLTWADLVIAEHLDTLEEL---L-DPSALDHFPKLKAFKERVSSIPNIK 195 (206)
T ss_pred hhhhhccchHHHHHHHHHHHHhCCCCeeecCcccHHHHHHHHHHHHHHHh---c-CchhhccChHHHHHHHHHhcCchHH
Confidence 12235677889999999977778999999999999999888776542 1 1122357899999999999999888
Q ss_pred ccCC
Q psy15093 153 QSCP 156 (179)
Q Consensus 153 ~~~~ 156 (179)
+.+.
T Consensus 196 ~~i~ 199 (206)
T KOG1695|consen 196 KYLE 199 (206)
T ss_pred HHHh
Confidence 7654
No 25
>PLN02907 glutamate-tRNA ligase
Probab=99.79 E-value=1.8e-18 Score=151.66 Aligned_cols=126 Identities=12% Similarity=0.110 Sum_probs=92.1
Q ss_pred hCCCCCCCeEE-eCCeeeecHHHHHHHHHhhCCCCCCCCCCchHH-HHHHHHHHHHHHHHHcCCChHHHHHHHHHHHHHH
Q psy15093 12 NFEATPPPILI-DNGLAVLENEKIERHIMKNVPGGHNLFVQDKEV-ATLIENLYSKLKLMLLKKDDVSINALMSHLRKIN 89 (179)
Q Consensus 12 ~nP~g~vPvL~-~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~~-~~~~~~~~~~~~~~~~~~~~~~~~~l~~~l~~le 89 (179)
.+|+|+||+|+ ++|.+|+||.||++||++.|+. +.|.|.++.. +.+.. |..+...... ...+.+.++.||
T Consensus 32 ~~p~GkVPvLv~ddG~~L~ES~AIl~YLa~~~p~-~~L~p~d~~erAqV~q-----WL~~~~~~~~--~~~l~~~L~~LE 103 (722)
T PLN02907 32 SLKSGSAPTLLFSSGEKLTGTNVLLRYIARSASL-PGFYGQDAFESSQVDE-----WLDYAPTFSS--GSEFENACEYVD 103 (722)
T ss_pred cCCCCCCcEEEECCCCEEECHHHHHHHHHHhCCC-cCCCCCCHHHHHHHHH-----HHHHHhhccc--HHHHHHHHHHHH
Confidence 57999999997 5889999999999999999985 4688876533 22221 1112111001 135677899999
Q ss_pred HHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccc
Q psy15093 90 DHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEA 150 (179)
Q Consensus 90 ~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~ 150 (179)
++|+ +++||+|+++|+|||++++.+..+.... ........||+|.+|+++|.++|+
T Consensus 104 ~~L~--~rtYLvGd~lTLADIaL~~~L~~~~~~~---~~~~~~~~yPnL~RW~erI~arPs 159 (722)
T PLN02907 104 GYLA--SRTFLVGYSLTIADIAIWSGLAGSGQRW---ESLRKSKKYQNLVRWFNSISAEYS 159 (722)
T ss_pred HHhc--cCCeecCCCCCHHHHHHHHHHHhhhhhh---hcccccccCHHHHHHHHHHHhCCC
Confidence 9998 6789999999999999998876541110 111123689999999999999999
No 26
>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=99.60 E-value=1.7e-14 Score=101.15 Aligned_cols=92 Identities=17% Similarity=0.162 Sum_probs=72.0
Q ss_pred hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccccccc
Q psy15093 75 DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQS 154 (179)
Q Consensus 75 ~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~ 154 (179)
+...+.+.+.++.+|+.|++++++|++|+++|+|||++++++.++..+..........+.||+|.+|+++|.++|+++.+
T Consensus 31 ~~~~~~~~~~l~~le~~L~~~~~~yl~G~~~t~aDi~~~~~~~~~~~~~~~~~~~~~~~~~p~l~~w~~r~~~~p~v~~~ 110 (124)
T cd03184 31 EEKKAELRSALENLEEELTKRGTPFFGGDSPGMVDYMIWPWFERLEALKLLLGYEFPLDRFPKLKKWMDAMKEDPAVQAF 110 (124)
T ss_pred hhhHHHHHHHHHHHHHHHHhcCCCCcCCCCccHHHHHhhHHHHHHHHHHhhccccCCcccChHHHHHHHHhccChHHHHH
Confidence 45667899999999999984347999999999999999999988764432110111136899999999999999999999
Q ss_pred CCChHHHHHHHH
Q psy15093 155 CPADQDIINHYK 166 (179)
Q Consensus 155 ~~~~~~~~~~~~ 166 (179)
.++.+.+.+.+.
T Consensus 111 ~~~~~~~~~~~~ 122 (124)
T cd03184 111 YTDTEIHAEFLK 122 (124)
T ss_pred hCCHHHHHHHHh
Confidence 998776655543
No 27
>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=99.57 E-value=7.6e-15 Score=102.58 Aligned_cols=87 Identities=18% Similarity=0.342 Sum_probs=69.2
Q ss_pred HHHHHHHHHHHHHHHcc-CCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccCC
Q psy15093 78 INALMSHLRKINDHLGR-KETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSCP 156 (179)
Q Consensus 78 ~~~l~~~l~~le~~L~~-~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~~ 156 (179)
.+++.+.++.||+.|+. ++++|++| ++|+|||+++|++.++........++++.++||+|.+|+++|.+||+|+++.+
T Consensus 32 ~~~~~~~l~~Le~~L~~~~~~~fl~G-~~tlADi~l~~~~~~~~~~~~~~~~~~~~~~~P~l~~W~~~~~~rp~~~~~~~ 110 (120)
T cd03203 32 SAEAAAALDYIENALSKFDDGPFFLG-QFSLVDIAYVPFIERFQIFLSELFNYDITEGRPNLAAWIEEMNKIEAYTQTKQ 110 (120)
T ss_pred hHHHHHHHHHHHHHHHhcCCCCCcCC-CccHHHHHHHHHHHHHHHHHHHhcCccccccCcHHHHHHHHHhcchHHHhHcC
Confidence 34677888999999873 13689999 99999999999998775422223455555689999999999999999999999
Q ss_pred ChHHHHHHH
Q psy15093 157 ADQDIINHY 165 (179)
Q Consensus 157 ~~~~~~~~~ 165 (179)
+.+.+...+
T Consensus 111 ~~~~~~~~~ 119 (120)
T cd03203 111 DPQELLDLA 119 (120)
T ss_pred CHHHHHhhh
Confidence 887776643
No 28
>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=99.56 E-value=1.8e-14 Score=103.56 Aligned_cols=91 Identities=19% Similarity=0.376 Sum_probs=69.1
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhc-c-cCcccccccHHHHHHHHHHhccccccc
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSY-F-MQFEIPTYMKHLWHYMKHMYELEAFTQ 153 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~-~-~~~~~~~~~p~l~~w~~~~~~~p~~~~ 153 (179)
...+.+.+.|+.||++|+ +++|++|+++|+|||++++.+.++..+... . .+....+.||+|.+|+++|.++|+|++
T Consensus 37 ~~~~~l~~~l~~LE~~L~--~~~yl~Gd~~TlADi~l~~~l~~~~~~~~~~~~~~~~~~~~~P~L~~w~~r~~~~P~~k~ 114 (142)
T cd03190 37 EAVDELFEALDRLEELLS--DRRYLLGDRLTEADIRLFTTLIRFDAVYVQHFKCNLKRIRDYPNLWNYLRRLYQNPGVAE 114 (142)
T ss_pred HHHHHHHHHHHHHHHHHc--cCCeeeCCCccHHHHHHHHHHHHHHHHhhhhcccccchhhhCchHHHHHHHHhcCchHhh
Confidence 345678899999999998 678999999999999999998876432211 1 011223589999999999999999999
Q ss_pred cCCChHHHHHHHHhh
Q psy15093 154 SCPADQDIINHYKLQ 168 (179)
Q Consensus 154 ~~~~~~~~~~~~~~~ 168 (179)
+....+.....+++.
T Consensus 115 ~~~~~~~~~~~~~~~ 129 (142)
T cd03190 115 TTNFDHIKQHYYGSH 129 (142)
T ss_pred hcCHHHHHHHHHhhc
Confidence 988754444444444
No 29
>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=99.52 E-value=6.2e-14 Score=98.16 Aligned_cols=87 Identities=20% Similarity=0.287 Sum_probs=69.3
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCccc--ccccHHHHHHHHHHhccccccc
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEI--PTYMKHLWHYMKHMYELEAFTQ 153 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~--~~~~p~l~~w~~~~~~~p~~~~ 153 (179)
...+++.+.++.||+.|+ +++|++|+++|+|||++++.+.++..... ..+.++ .+.+|++.+|+++|.++|+|++
T Consensus 35 ~~~~~~~~~l~~le~~L~--~~~~l~G~~~t~ADi~l~~~~~~~~~~~~-~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~ 111 (126)
T cd03185 35 KAKEEALEALKVLEEELG--GKPFFGGDTIGYVDIALGSFLGWFRAYEE-VGGVKLLDEEKTPLLAAWAERFLELEAVKE 111 (126)
T ss_pred HHHHHHHHHHHHHHHHhc--CCCCCCCCCcchHHHHHHHHHHHHHHHHH-HcCccccCcccCchHHHHHHHHHhccHHHH
Confidence 456678899999999998 57899999999999999999888753211 112221 3679999999999999999999
Q ss_pred cCCChHHHHHHH
Q psy15093 154 SCPADQDIINHY 165 (179)
Q Consensus 154 ~~~~~~~~~~~~ 165 (179)
+.+..+..++++
T Consensus 112 ~~~~~~~~~~~~ 123 (126)
T cd03185 112 VLPDRDKLVEFA 123 (126)
T ss_pred hCCCHHHHHHHH
Confidence 998876655543
No 30
>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=99.52 E-value=5e-14 Score=96.07 Aligned_cols=72 Identities=21% Similarity=0.429 Sum_probs=60.2
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccccccc
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQS 154 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~ 154 (179)
...+.+.+.+..||+.|+ +++|++|+++|+|||++++.+.++.. .+++++..+|+|.+|+++|.+||+|+++
T Consensus 35 ~~~~~~~~~l~~le~~L~--~~~~l~G~~~t~aDi~~~~~~~~~~~-----~~~~~~~~~p~l~~w~~~~~~rpa~~~~ 106 (107)
T cd03186 35 KARKELRESLLALAPVFA--HKPYFMSEEFSLVDCALAPLLWRLPA-----LGIELPKQAKPLKDYMERVFARDSFQKS 106 (107)
T ss_pred HHHHHHHHHHHHHHHHHc--CCCcccCCCCcHHHHHHHHHHHHHHH-----cCCCCcccchHHHHHHHHHHCCHHHHHh
Confidence 355678899999999998 68999999999999999999865532 2344446899999999999999999875
No 31
>COG0435 ECM4 Predicted glutathione S-transferase [Posttranslational modification, protein turnover, chaperones]
Probab=99.50 E-value=2.5e-14 Score=110.38 Aligned_cols=152 Identities=22% Similarity=0.343 Sum_probs=104.3
Q ss_pred CCCCeEEeC--Ce-eeecHHHHHHHHHhhCCC----CCCCCCCch--HHHHHHHHHHHHHHHHH-cCC----C---hHHH
Q psy15093 16 TPPPILIDN--GL-AVLENEKIERHIMKNVPG----GHNLFVQDK--EVATLIENLYSKLKLML-LKK----D---DVSI 78 (179)
Q Consensus 16 g~vPvL~~~--g~-~l~ES~aI~~YL~~~~p~----~~~L~p~~~--~~~~~~~~~~~~~~~~~-~~~----~---~~~~ 78 (179)
-+||||-|. .+ |=.||..|++-+...|.+ ...|.|..- +....+..+|+.+..=+ +.. . +++.
T Consensus 128 vTVPVLwDk~~~tIVnNES~eIirm~N~aFde~~~~~~dlyP~~Lr~eId~~n~~Iy~~vNNGVYk~GFA~tq~aYeea~ 207 (324)
T COG0435 128 VTVPVLWDKKTQTIVNNESAEIIRMFNSAFDEFGASAVDLYPEALRTEIDELNKWIYDTVNNGVYKAGFATTQEAYEEAV 207 (324)
T ss_pred eeEEEEEecCCCeeecCCcHHHHHHHHHHHHHHhhhccccCCHHHHHHHHHHHhhhcccccCceeeecccchHHHHHHHH
Confidence 479999874 33 457999999999887742 234566431 11122223333222100 000 0 4556
Q ss_pred HHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhh-cccC-cccccccHHHHHHHHHHhccccccccCC
Q psy15093 79 NALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGS-YFMQ-FEIPTYMKHLWHYMKHMYELEAFTQSCP 156 (179)
Q Consensus 79 ~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~-~~~~-~~~~~~~p~l~~w~~~~~~~p~~~~~~~ 156 (179)
+++...|+.||+.|+ .+.|++||++|-||+-+++.|.+++.+.- .++- ..-..+||+|..|++.+.+.|+|..|+.
T Consensus 208 ~~lF~~Ld~lE~~L~--~~ryl~Gd~lTEAD~RLftTlvRFD~VYvgHFKCN~~rI~dypnL~~yLr~LYq~pg~~~T~d 285 (324)
T COG0435 208 KKLFEALDKLEQILS--ERRYLTGDQLTEADIRLFTTLVRFDPVYVGHFKCNLRRIRDYPNLWGYLRDLYQLPGFAETVD 285 (324)
T ss_pred HHHHHHHHHHHHHhh--cCeeeccccchHhhhhhhheeEeecceEEeeeecccchhhcCchHHHHHHHHhcCcccccccc
Confidence 778899999999999 68899999999999999999999876532 2221 1112579999999999999999999985
Q ss_pred ChHHHHHHHHhhhc
Q psy15093 157 ADQDIINHYKLQQV 170 (179)
Q Consensus 157 ~~~~~~~~~~~~~~ 170 (179)
- ..|..||...+.
T Consensus 286 f-~hIK~hYyrSh~ 298 (324)
T COG0435 286 F-DHIKLHYYRSHT 298 (324)
T ss_pred h-hHhhhhheeccc
Confidence 4 578888866543
No 32
>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=99.47 E-value=2.3e-13 Score=90.68 Aligned_cols=66 Identities=18% Similarity=0.317 Sum_probs=55.9
Q ss_pred HHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccc-cccHHHHHHHHHHhccc
Q psy15093 77 SINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIP-TYMKHLWHYMKHMYELE 149 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~-~~~p~l~~w~~~~~~~p 149 (179)
...++.+.|+.+|+.|+ +++|++||++|+||+++++.+.++..... ... ++||+|.+|+++|.+||
T Consensus 29 ~~~~~~~~l~~le~~l~--~~~~l~G~~~t~ADi~~~~~~~~~~~~~~-----~~~~~~~P~l~~w~~~~~~~P 95 (95)
T PF00043_consen 29 ARAKVPRYLEVLEKRLK--GGPYLVGDKLTIADIALFPMLDWLERLGP-----DFLFEKFPKLKKWYERMFARP 95 (95)
T ss_dssp HHHHHHHHHHHHHHHHH--TSSSSSBSS-CHHHHHHHHHHHHHHHHTT-----TTTHTTSHHHHHHHHHHHTSH
T ss_pred HHHHHHHHHHHHHHHHc--CCCeeeccCCchhHHHHHHHHHHHHHhCC-----CcccccCHHHHHHHHHHHcCC
Confidence 45678889999999999 78999999999999999999998765432 222 68999999999999998
No 33
>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=99.46 E-value=2.8e-13 Score=93.99 Aligned_cols=76 Identities=13% Similarity=0.235 Sum_probs=60.7
Q ss_pred hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccccccc
Q psy15093 75 DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQS 154 (179)
Q Consensus 75 ~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~ 154 (179)
+...+++.+.+..||+.|+ +++|++||++|+|||++++.+.++.... ..+++ .+.||+|.+|+++|.+||+|+++
T Consensus 40 ~~~~~~i~~~l~~le~~L~--~~~yl~Gd~~tlADi~l~~~l~~~~~~~--~~~~~-~~~~P~L~~w~~r~~~rpa~~~~ 114 (115)
T cd03196 40 EEYRQQAEAFLKDLEARLQ--QHSYLLGDKPSLADWAIFPFVRQFAHVD--PKWFD-QSPYPRLRRWLNGFLASPLFSKI 114 (115)
T ss_pred HHHHHHHHHHHHHHHHHHc--cCCccCCCCccHHHHHHHHHHHHHHHhh--hcccC-cccCHHHHHHHHHHHcChHHHhh
Confidence 3456789999999999998 6789999999999999999876654221 11122 26899999999999999999886
Q ss_pred C
Q psy15093 155 C 155 (179)
Q Consensus 155 ~ 155 (179)
+
T Consensus 115 ~ 115 (115)
T cd03196 115 M 115 (115)
T ss_pred C
Confidence 4
No 34
>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=99.44 E-value=9.3e-13 Score=92.66 Aligned_cols=77 Identities=17% Similarity=0.222 Sum_probs=61.5
Q ss_pred HHHHHHHHHHHHHHHHccC-CCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccC
Q psy15093 77 SINALMSHLRKINDHLGRK-ETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSC 155 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~-~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~ 155 (179)
..+.+.+.|..||++|+++ +++|++|+++|+|||++++.+.++..... ...+.||+|.+|+++|.++|+|+++.
T Consensus 36 ~~~~~~~~l~~le~~L~~~~~~~~l~G~~~T~ADi~l~~~~~~~~~~~~-----~~~~~~P~l~~~~~rv~~~p~v~~~~ 110 (126)
T cd03210 36 YIKDLPEQLKPFEKLLSKNNGKGFIVGDKISFADYNLFDLLDIHLVLAP-----GCLDAFPLLKAFVERLSARPKLKAYL 110 (126)
T ss_pred HHHHHHHHHHHHHHHHHhCCCCCeeeCCCccHHHHHHHHHHHHHHHhCh-----HhhhcChHHHHHHHHHHhCcHHHHHH
Confidence 3456788999999999853 35899999999999999998877653211 12368999999999999999999887
Q ss_pred CCh
Q psy15093 156 PAD 158 (179)
Q Consensus 156 ~~~ 158 (179)
...
T Consensus 111 ~~~ 113 (126)
T cd03210 111 ESD 113 (126)
T ss_pred hCc
Confidence 543
No 35
>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=99.43 E-value=1.3e-12 Score=91.29 Aligned_cols=75 Identities=19% Similarity=0.334 Sum_probs=61.6
Q ss_pred HHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccCC
Q psy15093 77 SINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSCP 156 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~~ 156 (179)
..+.+.+.+..||++|+ +++|++|+++|+||+++++.+.++..... ...+.||+|.+|++||.++|+++++..
T Consensus 36 ~~~~~~~~l~~le~~L~--~~~~l~G~~~T~aDi~l~~~~~~~~~~~~-----~~~~~~P~l~~~~~rv~~~p~vk~~~~ 108 (121)
T cd03209 36 YLAKLPDKLKLFSDFLG--DRPWFAGDKITYVDFLLYEALDQHRIFEP-----DCLDAFPNLKDFLERFEALPKISAYMK 108 (121)
T ss_pred HHHHHHHHHHHHHHHhC--CCCCcCCCCccHHHHHHHHHHHHHHHhCc-----cccccChHHHHHHHHHHHCHHHHHHHh
Confidence 34567889999999998 67899999999999999998887753211 223689999999999999999999876
Q ss_pred Ch
Q psy15093 157 AD 158 (179)
Q Consensus 157 ~~ 158 (179)
..
T Consensus 109 ~~ 110 (121)
T cd03209 109 SD 110 (121)
T ss_pred cc
Confidence 54
No 36
>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=99.43 E-value=4.7e-13 Score=91.88 Aligned_cols=70 Identities=17% Similarity=0.226 Sum_probs=58.6
Q ss_pred HHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccccccc
Q psy15093 77 SINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQS 154 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~ 154 (179)
..+.+.+.++.+|++|+ +++|++|+++|+|||++++.+.++.. .+++ .+.||+|.+|+++|.++|+|+++
T Consensus 44 ~~~~~~~~l~~le~~l~--~~~~l~G~~~t~aDi~~~~~~~~~~~-----~~~~-~~~~p~l~~w~~~~~~~p~~k~~ 113 (114)
T cd03188 44 ARERLAARLAYLDAQLA--GGPYLLGDRFSVADAYLFVVLRWAPG-----VGLD-LSDWPNLAAYLARVAARPAVQAA 113 (114)
T ss_pred HHHHHHHHHHHHHHHhc--CCCeeeCCCcchHHHHHHHHHHHHhh-----cCCC-hhhChHHHHHHHHHHhCHHhHhh
Confidence 45678899999999998 67899999999999999998876542 1222 25799999999999999999875
No 37
>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=99.42 E-value=5.4e-13 Score=90.34 Aligned_cols=72 Identities=13% Similarity=0.139 Sum_probs=60.9
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccC
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSC 155 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~ 155 (179)
...+++.+.++.+|++|+ +++|++||++|+|||++++.+.++... +. ...+|+|.+|+++|.+||+|+.+.
T Consensus 30 ~~~~~~~~~l~~le~~l~--~~~~l~g~~~t~aDi~~~~~~~~~~~~-----~~--~~~~p~l~~w~~~~~~~p~~~~~~ 100 (103)
T cd03207 30 AGFGSYDDVLAALEQALA--KGPYLLGERFTAADVLVGSPLGWGLQF-----GL--LPERPAFDAYIARITDRPAFQRAA 100 (103)
T ss_pred hhhhhHHHHHHHHHHHHc--cCCcccCCccCHHHHHHHHHHHHHHHc-----CC--CCCChHHHHHHHHHHcCHHHHHHh
Confidence 345679999999999998 678999999999999999988876431 21 257999999999999999999876
Q ss_pred C
Q psy15093 156 P 156 (179)
Q Consensus 156 ~ 156 (179)
.
T Consensus 101 ~ 101 (103)
T cd03207 101 A 101 (103)
T ss_pred c
Confidence 4
No 38
>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=99.42 E-value=6.6e-13 Score=92.46 Aligned_cols=74 Identities=18% Similarity=0.238 Sum_probs=60.2
Q ss_pred HHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccCCC
Q psy15093 78 INALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSCPA 157 (179)
Q Consensus 78 ~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~~~ 157 (179)
.+.+.+.|..+|++|+.++++|++|+++|+|||++++.+.++... ++++ +.+|+|.+|+++|.+||+|+++.+.
T Consensus 46 ~~~~~~~l~~le~~L~~~~~~~l~G~~~t~ADi~~~~~~~~~~~~-----~~~~-~~~p~l~~w~~~~~~~p~~~~~~~~ 119 (121)
T cd03191 46 RHWIARGFAALEKLLAQTAGKFCFGDEPTLADICLVPQVYNARRF-----GVDL-SPYPTIARINEACLELPAFQAAHPD 119 (121)
T ss_pred HHHHHHHHHHHHHHHHhcCCCeecCCcCCHHHHHHHHHHHHHHHh-----CCCc-ccCcHHHHHHHHHHhChhHHHhCcC
Confidence 355788999999999743347999999999999999988765421 2332 6899999999999999999998764
No 39
>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=99.41 E-value=9.1e-13 Score=90.64 Aligned_cols=71 Identities=21% Similarity=0.317 Sum_probs=57.1
Q ss_pred HHHHHHHHHHHHHHHHHccCC--------CceecCCCCChhhhhHhhHHHHHHHhhhcccCccc----ccccHHHHHHHH
Q psy15093 76 VSINALMSHLRKINDHLGRKE--------TRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEI----PTYMKHLWHYMK 143 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~--------~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~----~~~~p~l~~w~~ 143 (179)
....++.+.|+.||++|..+. ++|++|+++|+|||++++.+.++... +++. ...||+|.+|++
T Consensus 29 ~~~~~l~~~l~~LE~~L~~~~~~~~~~~~~~yL~Gd~~TlADi~l~~~l~~~~~~-----~~~~~~~~~~~~P~l~~w~~ 103 (111)
T cd03204 29 KILDELEMVLDQVEQELQRRKEETEEQKCQLWLCGDTFTLADISLGVTLHRLKFL-----GLSRRYWGNGKRPNLEAYFE 103 (111)
T ss_pred HHHHHHHHHHHHHHHHHHcCCcccccccCCCccCCCCCCHHHHHHHHHHHHHHHc-----CccccccccccChHHHHHHH
Confidence 456788999999999997321 25999999999999999999887532 2222 257999999999
Q ss_pred HHhccccc
Q psy15093 144 HMYELEAF 151 (179)
Q Consensus 144 ~~~~~p~~ 151 (179)
||.+||+|
T Consensus 104 rv~aRpsf 111 (111)
T cd03204 104 RVLQRESF 111 (111)
T ss_pred HHHcCCCC
Confidence 99999986
No 40
>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=99.40 E-value=6.1e-13 Score=91.91 Aligned_cols=72 Identities=17% Similarity=0.263 Sum_probs=58.9
Q ss_pred HHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccccccc
Q psy15093 77 SINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQS 154 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~ 154 (179)
..+.+.+.++.||++|+ +++|++||++|+|||++++.+.++.... .+ ...+++|+|.+|+++|.++|+++++
T Consensus 46 ~~~~~~~~l~~le~~L~--~~~~l~G~~~t~aDi~l~~~~~~~~~~~---~~-~~~~~~p~l~~~~~~~~~~p~~~~~ 117 (118)
T cd03187 46 NEEKLKKVLDVYEARLS--KSKYLAGDSFTLADLSHLPYLQYLMATP---FA-KLFDSRPHVKAWWEDISARPAWKKV 117 (118)
T ss_pred HHHHHHHHHHHHHHHcc--cCcccCCCCccHHHHHHHHHHHHHHHcc---ch-hhhhcCchHHHHHHHHHhCHHHHhh
Confidence 45678899999999998 6789999999999999999887764311 11 1135799999999999999999875
No 41
>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=99.40 E-value=6.7e-13 Score=91.15 Aligned_cols=72 Identities=11% Similarity=0.195 Sum_probs=60.4
Q ss_pred HHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccC
Q psy15093 77 SINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSC 155 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~ 155 (179)
...++.+.++.+|+.|+ +++|++|+++|+|||++++.+.++... +++..+.||++.+|+++|.++|+|++++
T Consensus 41 ~~~~~~~~l~~le~~L~--~~~~l~G~~~t~aDi~l~~~~~~~~~~-----~~~~~~~~p~l~~w~~~~~~~p~~~~~~ 112 (113)
T cd03178 41 YTNEAKRLYGVLDKRLA--GRDYLAGDEYSIADIAIFPWVRRLEWI-----GIDDLDDFPNVKRWLDRIAARPAVQRGL 112 (113)
T ss_pred HHHHHHHHHHHHHHHHc--cCCcccCCCCCeeeeeHHHHHHHHHhc-----cccchhhchHHHHHHHHHhhCHHHHHhc
Confidence 45678899999999998 678999999999999999988876432 1222468999999999999999999864
No 42
>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=99.39 E-value=3.4e-12 Score=91.22 Aligned_cols=73 Identities=12% Similarity=0.157 Sum_probs=59.4
Q ss_pred HHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccCCC
Q psy15093 80 ALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSCPA 157 (179)
Q Consensus 80 ~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~~~ 157 (179)
.+.+.|+.||++|+.++++|++|+++|+|||++++.+.++..... ...+.||+|.+|+++|.++|+++++...
T Consensus 43 ~~~~~l~~lE~~L~~~~~~~l~G~~~T~ADi~l~~~l~~~~~~~~-----~~l~~~P~l~~~~~rv~~~P~vk~~~~~ 115 (137)
T cd03208 43 AKNRYFPVFEKVLKSHGQDFLVGNKLSRADIHLLEAILMVEELDP-----SLLSDFPLLQAFKTRISNLPTIKKFLQP 115 (137)
T ss_pred HHHHHHHHHHHHHHhCCCCeeeCCCCCHHHHHHHHHHHHHHHhch-----hhhccChHHHHHHHHHHcCHHHHHHHhc
Confidence 457889999999975456899999999999999999887653211 2236899999999999999999987653
No 43
>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=99.38 E-value=1.5e-12 Score=81.87 Aligned_cols=64 Identities=27% Similarity=0.416 Sum_probs=51.8
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHH
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKH 144 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~ 144 (179)
...+++.+.++.||++|+ +++|++|++||+|||++++.+.++..... +.++.+.+|+|.+|++|
T Consensus 6 ~~~~~~~~~l~~le~~L~--~~~fl~G~~~s~aD~~l~~~l~~~~~~~~---~~~~~~~~p~l~~w~~r 69 (69)
T PF13410_consen 6 RARAQLEAALDALEDHLA--DGPFLFGDRPSLADIALAPFLWRLRFVGP---DFDLLEAYPNLRAWYER 69 (69)
T ss_dssp HHHHHHHHHHHHHHHHHT--TSSBTTBSS--HHHHHHHHHHHHHHHCTH---TCCHHTTSHHHHHHHHH
T ss_pred HHHHHHHHHHHHHHHHHh--hCCCCCCCCCCHHHHHHHHHHHHHHHhCc---CcCccccCHHHHHHHhC
Confidence 456789999999999999 67799999999999999999999876532 22344789999999986
No 44
>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=99.38 E-value=8.3e-13 Score=87.49 Aligned_cols=42 Identities=24% Similarity=0.365 Sum_probs=39.3
Q ss_pred CCCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCC
Q psy15093 3 NTRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPG 44 (179)
Q Consensus 3 ~~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~ 44 (179)
+.+++||+++||.|+||+|+++|.+|+||.+|++||+++++.
T Consensus 47 ~~~p~~~~~~nP~g~vPvL~~~~~~i~eS~~I~eYLde~~~~ 88 (91)
T cd03061 47 KRKPEDLKDLAPGTQPPFLLYNGEVKTDNNKIEEFLEETLCP 88 (91)
T ss_pred CCCCHHHHHhCCCCCCCEEEECCEEecCHHHHHHHHHHHccC
Confidence 457899999999999999999999999999999999999974
No 45
>KOG2903|consensus
Probab=99.37 E-value=1.1e-12 Score=100.46 Aligned_cols=151 Identities=22% Similarity=0.320 Sum_probs=101.9
Q ss_pred CCCCeEEeC---CeeeecHHHHHHHHHhhCCC------CC--CCCCCchHHHHHH----HHHHHHHHH------HHcCCC
Q psy15093 16 TPPPILIDN---GLAVLENEKIERHIMKNVPG------GH--NLFVQDKEVATLI----ENLYSKLKL------MLLKKD 74 (179)
Q Consensus 16 g~vPvL~~~---g~~l~ES~aI~~YL~~~~p~------~~--~L~p~~~~~~~~~----~~~~~~~~~------~~~~~~ 74 (179)
-+||||-|- ..|=.||..|++.+...|.+ .+ .|.|.. ....+ ..+++.+.. +.....
T Consensus 122 fTVPVLWD~k~ktIVnNES~eIIr~fNs~f~ef~~~~e~~~lDL~P~~--L~~~Ide~N~wvy~~INNGVYk~GFA~~~e 199 (319)
T KOG2903|consen 122 FTVPVLWDLKTKTIVNNESSEIIRMFNSAFDEFNGIAENPVLDLYPSS--LRAQIDETNSWVYDKINNGVYKCGFAEKQE 199 (319)
T ss_pred EEEEEEEccccceeecCchHHHHHHHhhhhhhhhccccCCccccCCHH--HHHHHhhhhceecccccCceeeeccccccc
Confidence 469999773 34668999999999955531 11 234432 11111 112222111 000111
Q ss_pred --hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhc-ccC-c-ccccccHHHHHHHHHHhc-c
Q psy15093 75 --DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSY-FMQ-F-EIPTYMKHLWHYMKHMYE-L 148 (179)
Q Consensus 75 --~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~-~~~-~-~~~~~~p~l~~w~~~~~~-~ 148 (179)
+....++...|+.+|++|.++.+.|+|||++|.|||.+++.+.+++.+... ++- . .+.++||+|..|.+.+.. .
T Consensus 200 ~Ye~~V~~lfe~LDr~E~vL~~~~~~f~~G~~LTeaDirLy~TiIRFD~VY~~hFKCn~~~ir~~Yp~l~~~lk~iY~~~ 279 (319)
T KOG2903|consen 200 AYEEEVNQLFEALDRCEDVLGKNRKYFLCGDTLTEADIRLYTTIIRFDEVYVQHFKCNKKTIRDEYPNLHNWLKNIYWNI 279 (319)
T ss_pred hHHHHHHHHHHHHHHHHHHHhcccceEeeccccchhheeeeeeEEeehhhhheeeecchhhhhccCcHHHHHHHHHHhhc
Confidence 455678899999999999975566999999999999999999998765332 221 1 133589999999999998 9
Q ss_pred ccccccCCChHHHHHHHHhhh
Q psy15093 149 EAFTQSCPADQDIINHYKLQQ 169 (179)
Q Consensus 149 p~~~~~~~~~~~~~~~~~~~~ 169 (179)
|+|+.|+.- ..|..+|...+
T Consensus 280 ~~~~~Ttd~-~hIk~~Y~~S~ 299 (319)
T KOG2903|consen 280 PGFSSTTDF-NHIKLHYYRSH 299 (319)
T ss_pred cchhhccch-hHHhhhhcccc
Confidence 999999854 57777876644
No 46
>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=99.35 E-value=3.9e-12 Score=87.86 Aligned_cols=69 Identities=17% Similarity=0.299 Sum_probs=57.6
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccc
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAF 151 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~ 151 (179)
...+++.+.|+.+|+.|+ +++|++||++|+|||++++.+.++.. .+.++...+|+|.+|++++.+||++
T Consensus 49 ~~~~~l~~~l~~le~~L~--~~~~l~gd~~t~aDi~l~~~~~~~~~-----~~~~~~~~~p~l~~w~~~~~~~p~~ 117 (117)
T cd03182 49 RSKARAADFLAYLDTRLA--GSPYVAGDRFTIADITAFVGLDFAKV-----VKLRVPEELTHLRAWYDRMAARPSA 117 (117)
T ss_pred HHHHHHHHHHHHHHHHhc--CCCcccCCCCCHHHHHHHHHhHHHHh-----cCCCCccccHHHHHHHHHHHhccCC
Confidence 345678899999999998 56899999999999999999887643 2334446899999999999999974
No 47
>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=99.35 E-value=2.5e-12 Score=89.27 Aligned_cols=74 Identities=11% Similarity=0.333 Sum_probs=61.8
Q ss_pred hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccccccc
Q psy15093 75 DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQS 154 (179)
Q Consensus 75 ~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~ 154 (179)
+...+++.+.|+.+|++|+ +++|++|+++|+||+++++.+.++... .++++ ..||+|.+|+++|.++|+|++.
T Consensus 37 ~~~~~~~~~~l~~le~~L~--~~~~l~G~~~s~aDi~l~~~~~~~~~~----~~~~~-~~~p~l~~w~~~~~~~p~~~~~ 109 (118)
T cd03177 37 EEKLDKLEEALDFLETFLE--GSDYVAGDQLTIADLSLVATVSTLEAL----LPLDL-SKYPNVRAWLERLKALPPYEEA 109 (118)
T ss_pred HHHHHHHHHHHHHHHHHHc--cCCeeCCCCcCHHHHHHHHHHHHHHHh----cCCCh-hhCchHHHHHHHHHcccchHHH
Confidence 4566789999999999998 578999999999999999999877531 12332 5799999999999999999986
Q ss_pred C
Q psy15093 155 C 155 (179)
Q Consensus 155 ~ 155 (179)
.
T Consensus 110 ~ 110 (118)
T cd03177 110 N 110 (118)
T ss_pred H
Confidence 4
No 48
>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=99.34 E-value=3.8e-12 Score=86.77 Aligned_cols=67 Identities=19% Similarity=0.207 Sum_probs=55.3
Q ss_pred HHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccc
Q psy15093 77 SINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAF 151 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~ 151 (179)
..+.+.+.|+.+|+.|. +++|++|+++|+|||++++.+...... +.. ...||+|.+|+++|.++|+|
T Consensus 44 ~~~~~~~~l~~lE~~L~--~~~~l~g~~~t~aDi~~~~~~~~~~~~-----~~~-~~~~p~l~~~~~~~~~~p~~ 110 (110)
T cd03180 44 SLAAWAKLMAILDAQLA--GRPYLAGDRFTLADIPLGCSAYRWFEL-----PIE-RPPLPHLERWYARLRARPAF 110 (110)
T ss_pred HHHHHHHHHHHHHHHhC--CCCcccCCCCCHHHHHHHHHHHHHHHc-----ccc-cccCchHHHHHHHHHhCCCC
Confidence 45678999999999998 578999999999999999987543211 112 36899999999999999986
No 49
>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=99.34 E-value=2.8e-12 Score=89.90 Aligned_cols=73 Identities=15% Similarity=0.206 Sum_probs=58.5
Q ss_pred HHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhc--ccccccc
Q psy15093 77 SINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYE--LEAFTQS 154 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~--~p~~~~~ 154 (179)
..+.+.+.++.+|+.|.+ +++|++||++|+|||++++.+.++.. .+++..+.||+|.+|+++|.+ ||+|+++
T Consensus 46 ~~~~~~~~l~~le~~l~~-~~~~l~Gd~~t~ADi~l~~~~~~~~~-----~~~~~~~~~p~l~~w~~~~~~~~~p~~~~~ 119 (126)
T cd03183 46 AEENLEESLDLLENYFLK-DKPFLAGDEISIADLSAVCEIMQPEA-----AGYDVFEGRPKLAAWRKRVKEAGNPLFDEA 119 (126)
T ss_pred HHHHHHHHHHHHHHHHhc-CCCcccCCCCCHHHHHHHHHHHHHHh-----cCCcccccCchHHHHHHHHHHhcchhHHHH
Confidence 456788999999997542 46899999999999999988766542 123334689999999999999 9999886
Q ss_pred C
Q psy15093 155 C 155 (179)
Q Consensus 155 ~ 155 (179)
.
T Consensus 120 ~ 120 (126)
T cd03183 120 H 120 (126)
T ss_pred H
Confidence 4
No 50
>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=99.33 E-value=1.7e-12 Score=82.81 Aligned_cols=36 Identities=11% Similarity=0.051 Sum_probs=33.7
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHH
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIM 39 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~ 39 (179)
.++++|+++||.|+||+|++||.+|+||.||++||+
T Consensus 38 ~~~~~~~~inP~g~vP~L~~~g~~l~Es~aI~~yLe 73 (73)
T cd03052 38 HNEPWFMRLNPTGEVPVLIHGDNIICDPTQIIDYLE 73 (73)
T ss_pred cCCHHHHHhCcCCCCCEEEECCEEEEcHHHHHHHhC
Confidence 457899999999999999999999999999999995
No 51
>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=99.32 E-value=5.9e-12 Score=84.90 Aligned_cols=69 Identities=17% Similarity=0.276 Sum_probs=56.4
Q ss_pred hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccc
Q psy15093 75 DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAF 151 (179)
Q Consensus 75 ~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~ 151 (179)
+....++.+.++.+|+.|+ +++|++|+++|+|||++++.+.+... .++. .+.||+|.+|+++|.++|+|
T Consensus 32 ~~~~~~~~~~l~~le~~L~--~~~~l~G~~~t~aDi~~~~~~~~~~~-----~~~~-~~~~p~l~~~~~~~~~~p~~ 100 (100)
T cd03206 32 ETAIARAHRLLRLLEEHLA--GRDWLAGDRPTIADVAVYPYVALAPE-----GGVD-LEDYPAIRRWLARIEALPGF 100 (100)
T ss_pred HHHHHHHHHHHHHHHHHHc--cCCccCCCCCCHHHHHHHHHHHHHhc-----cCCC-hhhCcHHHHHHHHHHhCcCC
Confidence 3456789999999999998 67899999999999999988765321 1222 26899999999999999986
No 52
>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=99.30 E-value=5.1e-12 Score=80.95 Aligned_cols=41 Identities=17% Similarity=0.288 Sum_probs=38.4
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCC
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPG 44 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~ 44 (179)
.+.++|+++||.|+||+|++||.+++||.+|++||+++|++
T Consensus 33 ~~~~~~~~~~p~~~vPvL~~~g~~l~dS~~I~~yL~~~~~~ 73 (75)
T PF13417_consen 33 EKRPEFLKLNPKGKVPVLVDDGEVLTDSAAIIEYLEERYPG 73 (75)
T ss_dssp STSHHHHHHSTTSBSSEEEETTEEEESHHHHHHHHHHHSTS
T ss_pred cchhHHHhhcccccceEEEECCEEEeCHHHHHHHHHHHcCC
Confidence 34789999999999999999999999999999999999985
No 53
>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=99.30 E-value=4.1e-12 Score=81.63 Aligned_cols=40 Identities=15% Similarity=0.131 Sum_probs=36.7
Q ss_pred CCchhHhhhCCCCCCCeEEeC-CeeeecHHHHHHHHHhhCC
Q psy15093 4 TRDKKARTNFEATPPPILIDN-GLAVLENEKIERHIMKNVP 43 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~-g~~l~ES~aI~~YL~~~~p 43 (179)
.++++|+++||.|+||+|+++ |.+++||.||++||+++||
T Consensus 37 ~~~~~~~~~np~~~vP~l~~~~g~~l~eS~aI~~yL~~~~p 77 (77)
T cd03057 37 QKGADYLAINPKGQVPALVLDDGEVLTESAAILQYLADLHP 77 (77)
T ss_pred cCCHhHHHhCCCCCCCEEEECCCcEEEcHHHHHHHHHHhCc
Confidence 357899999999999999876 8999999999999999885
No 54
>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=99.30 E-value=7e-12 Score=87.31 Aligned_cols=78 Identities=12% Similarity=0.061 Sum_probs=62.4
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccC
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSC 155 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~ 155 (179)
...+++.+.|+.+|+.|+ +++|++|+++|+|||++++.+.++..... +....+.+|++.+|++++.++|+|++++
T Consensus 40 ~~~~~~~~~l~~le~~l~--~~~~l~G~~~siaDi~l~~~~~~~~~~~~---~~~~~~~~p~l~~w~~~~~~~p~~~~~~ 114 (123)
T cd03181 40 AALEELDRVLGVLEERLL--KRTYLVGERLTLADIFVAGALLLGFTYVF---DKEWRAKYPNVTRWFNTVVNQPIFKAVF 114 (123)
T ss_pred HHHHHHHHHHHHHHHHHc--cCceeccCCccHHHHHHHHHHHHHHHHHc---CHHHHHhChHHHHHHHHHHcCHHHHHHc
Confidence 345678889999999998 67899999999999999998887632111 1112257999999999999999999987
Q ss_pred CCh
Q psy15093 156 PAD 158 (179)
Q Consensus 156 ~~~ 158 (179)
...
T Consensus 115 ~~~ 117 (123)
T cd03181 115 GEV 117 (123)
T ss_pred CCC
Confidence 664
No 55
>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=99.28 E-value=5.9e-12 Score=80.49 Aligned_cols=40 Identities=15% Similarity=0.122 Sum_probs=37.4
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCC
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNVP 43 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p 43 (179)
.++++|+++||.|+||+|+++|.+|+||.||++||+++||
T Consensus 37 ~~~~~~~~~~p~~~vP~l~~~g~~l~es~aI~~yL~~~~~ 76 (76)
T cd03046 37 QAPPEYLAINPLGKVPVLVDGDLVLTESAAIILYLAEKYG 76 (76)
T ss_pred cCCHHHHhcCCCCCCCEEEECCEEEEcHHHHHHHHHHhCc
Confidence 4678999999999999999999999999999999999885
No 56
>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=99.28 E-value=1.2e-11 Score=85.76 Aligned_cols=65 Identities=15% Similarity=0.168 Sum_probs=53.8
Q ss_pred HHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccc
Q psy15093 77 SINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELE 149 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p 149 (179)
...++.+.++.||++|+ +++|++||++|+|||++++.+.++... +.. .+.||+|.+|+++|.+||
T Consensus 55 ~~~~~~~~l~~le~~L~--~~~~l~Gd~~t~ADi~l~~~~~~~~~~-----~~~-~~~~p~l~~w~~~~~~~p 119 (119)
T cd03189 55 INPELKKHLDFLEDRLA--KKGYFVGDKLTAADIMMSFPLEAALAR-----GPL-LEKYPNIAAYLERIEARP 119 (119)
T ss_pred HhHHHHHHHHHHHHHHc--cCCCCCCCCCCHHHHHHHHHHHHHHHc-----Ccc-cccCchHHHHHHHHhcCC
Confidence 34578899999999998 678999999999999999888776421 112 368999999999999987
No 57
>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=99.27 E-value=1.3e-11 Score=83.08 Aligned_cols=65 Identities=23% Similarity=0.351 Sum_probs=50.7
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhc
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYE 147 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~ 147 (179)
...+++.+.++.++++|+.++++||+|+++|+|||++++.|..+.. . +++++||+|.+|++||++
T Consensus 35 ~~~~~~~~~l~~l~~~L~~~~~~~l~G~~~T~AD~~v~~~l~~~~~------~-~~~~~~p~L~~w~~ri~~ 99 (99)
T PF14497_consen 35 FSREELPKALKILEKHLAERGGDFLVGDKPTLADIAVFGFLASLRW------A-DFPKDYPNLVRWYERIEE 99 (99)
T ss_dssp HHHHHHHHHHHHHHHHHHHTSSSSSSSSS--HHHHHHHHHHHHHHC------C-HHTTTCHHHHHHHHHHHT
T ss_pred hhHHHHHHHHHHHHHHHHcCCCeeecCCCCCHHHHHHHHHHHHHhh------c-ccccccHHHHHHHHhhcC
Confidence 4567899999999999996555699999999999999998854431 1 223689999999999974
No 58
>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=99.26 E-value=7.6e-12 Score=79.15 Aligned_cols=38 Identities=16% Similarity=0.191 Sum_probs=33.5
Q ss_pred CCchhHhhhCCCCCCCeEEe-CCeeeecHHHHHHHHHhh
Q psy15093 4 TRDKKARTNFEATPPPILID-NGLAVLENEKIERHIMKN 41 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~-~g~~l~ES~aI~~YL~~~ 41 (179)
.++++|+++||.|+||+|++ +|.+++||.+|++||+++
T Consensus 32 ~~~~~~~~~~p~~~VP~L~~~~g~vi~eS~~I~~yL~~~ 70 (70)
T PF13409_consen 32 QKPPEFLALNPRGKVPVLVDPDGTVINESLAILEYLEEQ 70 (70)
T ss_dssp TTCHBHHHHSTT-SSSEEEETTTEEEESHHHHHHHHHHT
T ss_pred ccChhhhccCcCeEEEEEEECCCCEeeCHHHHHHHHhcC
Confidence 34689999999999999987 789999999999999974
No 59
>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=99.26 E-value=1e-11 Score=80.59 Aligned_cols=40 Identities=15% Similarity=0.148 Sum_probs=36.8
Q ss_pred CCchhHhhhCCCCCCCeEEeC---CeeeecHHHHHHHHHhhCC
Q psy15093 4 TRDKKARTNFEATPPPILIDN---GLAVLENEKIERHIMKNVP 43 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~---g~~l~ES~aI~~YL~~~~p 43 (179)
.++++|+++||.|+||+|+++ |.+|+||.||++||+++|+
T Consensus 38 ~~~~~~~~~~p~~~vP~l~~~~~~g~~l~eS~aI~~yL~~~~~ 80 (81)
T cd03048 38 QKKPEFLKINPNGRIPAIVDHNGTPLTVFESGAILLYLAEKYD 80 (81)
T ss_pred ccCHHHHHhCcCCCCCEEEeCCCCceEEEcHHHHHHHHHHHhC
Confidence 456899999999999999887 8999999999999999986
No 60
>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=99.26 E-value=1e-11 Score=79.65 Aligned_cols=38 Identities=13% Similarity=0.172 Sum_probs=35.3
Q ss_pred CchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhC
Q psy15093 5 RDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNV 42 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~ 42 (179)
+.++|+++||.|+||+|+++|.+|+||.||++||+++|
T Consensus 39 ~~~~~~~~~p~~~vP~L~~~~~~l~eS~aI~~Yl~~~~ 76 (76)
T cd03050 39 LTPEFKKINPFGKVPAIVDGDFTLAESVAILRYLARKF 76 (76)
T ss_pred CCHHHHHhCcCCCCCEEEECCEEEEcHHHHHHHHHhhC
Confidence 35789999999999999999999999999999999875
No 61
>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=99.24 E-value=2.7e-11 Score=85.03 Aligned_cols=68 Identities=15% Similarity=0.276 Sum_probs=56.5
Q ss_pred hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcc
Q psy15093 75 DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYEL 148 (179)
Q Consensus 75 ~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~ 148 (179)
+...+.+.+.++.+|+.|+ +++|++||++|+|||++++.+.++... .++++.+.||+|.+|++||.+.
T Consensus 57 ~~~~~~~~~~l~~l~~~L~--~~~fl~Gd~~t~AD~~l~~~l~~~~~~----~~~~~~~~~p~l~~W~~r~~~~ 124 (124)
T cd03202 57 EAALANFRAALEPLRATLK--GQPFLGGAAPNYADYIVFGGFQWARIV----SPFPLLEEDDPVYDWFERCLDL 124 (124)
T ss_pred HHHHHHHHHHHHHHHHHHc--CCCccCCCCCchhHHHHHHHHHHHHHc----CcccccccCChHHHHHHHHhcC
Confidence 4566789999999999998 678999999999999999999887542 1234447899999999999763
No 62
>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=99.24 E-value=2.9e-11 Score=83.66 Aligned_cols=71 Identities=14% Similarity=0.150 Sum_probs=57.8
Q ss_pred hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccccccc
Q psy15093 75 DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQS 154 (179)
Q Consensus 75 ~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~ 154 (179)
+...+.+.+.+..+|..|.. +++||+| +||+||+++++.+.++... ++++ . |++.+|.+||.+||+|++.
T Consensus 41 ~~~~~~~~~~~~~le~~l~~-~~~~l~G-~fSiAD~~l~~~~~~~~~~-----g~~l--~-p~l~ay~~r~~~rPa~~~~ 110 (114)
T cd03195 41 EAAQAAAEKLIAVAEALLPP-GAANLFG-EWCIADTDLALMLNRLVLN-----GDPV--P-ERLRDYARRQWQRPSVQAW 110 (114)
T ss_pred HHHHHHHHHHHHHHHHHHhc-CCCcccC-CccHHHHHHHHHHHHHHHc-----CCCC--C-HHHHHHHHHHHCCHHHHHH
Confidence 34567788889999999962 4489999 5999999999999876532 4454 2 9999999999999999987
Q ss_pred C
Q psy15093 155 C 155 (179)
Q Consensus 155 ~ 155 (179)
.
T Consensus 111 ~ 111 (114)
T cd03195 111 L 111 (114)
T ss_pred H
Confidence 5
No 63
>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=99.23 E-value=1.1e-10 Score=78.29 Aligned_cols=95 Identities=17% Similarity=0.186 Sum_probs=62.1
Q ss_pred HHHHHhhCCCCCCCCCCchHHHHHHHHHHHHHHHHHcCCChHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhh
Q psy15093 35 ERHIMKNVPGGHNLFVQDKEVATLIENLYSKLKLMLLKKDDVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMP 114 (179)
Q Consensus 35 ~~YL~~~~p~~~~L~p~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~ 114 (179)
++||++.- .|.|++.........+......-+... ..+++.+.++.+|++|. +++|++|+++|+|||++++
T Consensus 1 ~r~~~~~~----~~~~~~~~~~~~vd~~~d~~~~~l~~~---~~~~~~~~l~~le~~L~--~~~fl~Gd~~tiADi~l~~ 71 (96)
T cd03200 1 ARFLYRLL----GPAPNAPNAATNIDSWVDTAIFQLAEG---SSKEKAAVLRALNSALG--RSPWLVGSEFTVADIVSWC 71 (96)
T ss_pred CchHHHHh----cccCCCchHHHHHHHHHHHHHHHHhcC---CHHHHHHHHHHHHHHHc--CCCccCCCCCCHHHHHHHH
Confidence 47888872 256665432222222222221111111 23566788999999998 6789999999999999998
Q ss_pred HHHHHHHhhhcccCcccccccHHHHHHHHHHhc
Q psy15093 115 RLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYE 147 (179)
Q Consensus 115 ~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~ 147 (179)
.+.+. ++. ...||+|.+|++||.+
T Consensus 72 ~l~~~--------~~~-~~~~p~l~~w~~r~~~ 95 (96)
T cd03200 72 ALLQT--------GLA-SAAPANVQRWLKSCEN 95 (96)
T ss_pred HHHHc--------ccc-cccChHHHHHHHHHHh
Confidence 76532 122 2579999999999976
No 64
>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=99.23 E-value=1.9e-11 Score=77.54 Aligned_cols=39 Identities=15% Similarity=0.144 Sum_probs=36.1
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhC
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKNV 42 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~ 42 (179)
.++++|+++||.|+||+|+++|.+++||.||++||+++|
T Consensus 35 ~~~~~~~~~~p~~~vP~l~~~~~~l~es~aI~~yL~~~~ 73 (73)
T cd03059 35 NPPEDLAELNPYGTVPTLVDRDLVLYESRIIMEYLDERF 73 (73)
T ss_pred CCCHHHHhhCCCCCCCEEEECCEEEEcHHHHHHHHHhhC
Confidence 356899999999999999999999999999999999875
No 65
>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=99.22 E-value=1.6e-11 Score=78.95 Aligned_cols=36 Identities=19% Similarity=0.235 Sum_probs=33.8
Q ss_pred CchhHhhhCCC-CCCCeEEeC-CeeeecHHHHHHHHHh
Q psy15093 5 RDKKARTNFEA-TPPPILIDN-GLAVLENEKIERHIMK 40 (179)
Q Consensus 5 ~~~~~~~~nP~-g~vPvL~~~-g~~l~ES~aI~~YL~~ 40 (179)
++++|++.||+ |+||+|+++ |.+|+||.||++||++
T Consensus 39 ~~~e~~~~~p~~g~vP~l~~~~~~~l~es~AI~~YLa~ 76 (76)
T PF02798_consen 39 KSPEFLAINPMFGKVPALEDGDGFVLTESNAILRYLAR 76 (76)
T ss_dssp GSHHHHHHTTTSSSSSEEEETTTEEEESHHHHHHHHHH
T ss_pred cchhhhhcccccceeeEEEECCCCEEEcHHHHHHHhCC
Confidence 45999999999 999999998 9999999999999985
No 66
>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=99.18 E-value=2.9e-11 Score=76.88 Aligned_cols=36 Identities=19% Similarity=0.231 Sum_probs=33.7
Q ss_pred CchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHh
Q psy15093 5 RDKKARTNFEATPPPILIDNGLAVLENEKIERHIMK 40 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~ 40 (179)
+.++|+++||.|+||+|+++|.+|+||.||++||++
T Consensus 39 ~~~~~~~~~p~~~vP~l~~~~~~l~es~aI~~yL~~ 74 (74)
T cd03045 39 LKPEFLKLNPQHTVPTLVDNGFVLWESHAILIYLVE 74 (74)
T ss_pred CCHHHHhhCcCCCCCEEEECCEEEEcHHHHHHHHhC
Confidence 468999999999999999999999999999999975
No 67
>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=99.18 E-value=3.2e-11 Score=77.15 Aligned_cols=38 Identities=18% Similarity=0.241 Sum_probs=34.9
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhh
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIMKN 41 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~ 41 (179)
.++++|+++||.|+||+|+++|.+++||.||++||+++
T Consensus 39 ~~~~~~~~~~P~~~vP~l~~~g~~l~es~aI~~yL~~~ 76 (76)
T cd03053 39 HKSPEHLARNPFGQIPALEDGDLKLFESRAITRYLAEK 76 (76)
T ss_pred cCCHHHHhhCCCCCCCEEEECCEEEEcHHHHHHHHhhC
Confidence 35689999999999999999999999999999999863
No 68
>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=99.18 E-value=3.4e-11 Score=76.77 Aligned_cols=39 Identities=18% Similarity=0.186 Sum_probs=35.4
Q ss_pred CCchhHhhhCCC-CCCCeEEeCCeeeecHHHHHHHHHhhC
Q psy15093 4 TRDKKARTNFEA-TPPPILIDNGLAVLENEKIERHIMKNV 42 (179)
Q Consensus 4 ~~~~~~~~~nP~-g~vPvL~~~g~~l~ES~aI~~YL~~~~ 42 (179)
.++++|+++||. |+||+|+++|.+++||.||++||++++
T Consensus 35 ~~~~~~~~~~p~~~~vP~l~~~~~~l~eS~aI~~yL~~~~ 74 (74)
T cd03058 35 NKSELLLASNPVHKKIPVLLHNGKPICESLIIVEYIDEAW 74 (74)
T ss_pred cCCHHHHHhCCCCCCCCEEEECCEEeehHHHHHHHHHhhC
Confidence 356899999996 999999999999999999999999875
No 69
>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=99.18 E-value=7.7e-11 Score=81.55 Aligned_cols=71 Identities=15% Similarity=0.154 Sum_probs=53.8
Q ss_pred HHHHHHHHHHHHHHHHHccC-CCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccccccc
Q psy15093 76 VSINALMSHLRKINDHLGRK-ETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQS 154 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~-~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~ 154 (179)
...+.+.+.+..+|..|+.. +++|++|| +|+||+++++.+.++... +.+. .|+|.+|+++|.+||+|++.
T Consensus 41 ~~~~~~~~~~~~le~~l~~~~~~~yl~Gd-~T~ADi~l~~~~~~~~~~-----~~~~---~P~l~~~~~rv~~rPsv~~~ 111 (114)
T cd03194 41 AVQADIARIEAIWAECLARFQGGPFLFGD-FSIADAFFAPVVTRFRTY-----GLPL---SPAAQAYVDALLAHPAMQEW 111 (114)
T ss_pred HHHHHHHHHHHHHHHHHHHcCCCCCCCCC-CcHHHHHHHHHHHHHHHc-----CCCC---CHHHHHHHHHHHCCHHHHHH
Confidence 34455666777777766432 57899999 999999999998876421 2232 29999999999999999876
Q ss_pred C
Q psy15093 155 C 155 (179)
Q Consensus 155 ~ 155 (179)
+
T Consensus 112 ~ 112 (114)
T cd03194 112 I 112 (114)
T ss_pred H
Confidence 4
No 70
>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=99.15 E-value=5.2e-11 Score=75.74 Aligned_cols=35 Identities=17% Similarity=0.171 Sum_probs=32.9
Q ss_pred CchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHH
Q psy15093 5 RDKKARTNFEATPPPILIDNGLAVLENEKIERHIM 39 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~ 39 (179)
+.++|+++||.|+||+|+++|.+|+||.||++||+
T Consensus 39 ~~~~~~~~nP~~~vP~L~~~~~~l~eS~aI~~YL~ 73 (73)
T cd03047 39 DTPEFLAMNPNGRVPVLEDGDFVLWESNAILRYLA 73 (73)
T ss_pred cCHHHHhhCCCCCCCEEEECCEEEECHHHHHHHhC
Confidence 46899999999999999999999999999999984
No 71
>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=99.13 E-value=1e-10 Score=76.96 Aligned_cols=69 Identities=20% Similarity=0.253 Sum_probs=51.7
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCc-ccccccHHHHHHHHHHh
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQF-EIPTYMKHLWHYMKHMY 146 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~-~~~~~~p~l~~w~~~~~ 146 (179)
...+++.+.++.+|+.|+ +++|++||++|+|||++++.+.++.......... ...++||+|.+|++||.
T Consensus 19 ~~~~~~~~~l~~le~~L~--~~~yl~Gd~~t~aDi~l~~~l~~~~~~~~~~~~~~~~~~~~p~l~~~~~r~~ 88 (88)
T cd03193 19 EIYSLAKKDLKALSDLLG--DKKFFFGDKPTSLDATVFGHLASILYAPLPNSALQLILKEYPNLVEYCERIR 88 (88)
T ss_pred HHHHHHHHHHHHHHHHhC--CCCccCCCCCCHHHHHHHHHHHHHHhcCCCChHHHHHHHhCcHHHHHHHHhC
Confidence 345678999999999999 6789999999999999999988764311000000 01257999999999974
No 72
>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=99.13 E-value=5.2e-11 Score=75.87 Aligned_cols=35 Identities=17% Similarity=0.328 Sum_probs=32.8
Q ss_pred chhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHh
Q psy15093 6 DKKARTNFEATPPPILIDNGLAVLENEKIERHIMK 40 (179)
Q Consensus 6 ~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~ 40 (179)
.++|+++||.|+||+|+++|.+++||.||++||++
T Consensus 38 ~~~~~~~~p~~~vP~l~~~~~~l~es~aI~~yL~~ 72 (73)
T cd03076 38 QESLKPKMLFGQLPCFKDGDLTLVQSNAILRHLGR 72 (73)
T ss_pred hhhhhccCCCCCCCEEEECCEEEEcHHHHHHHHhc
Confidence 46799999999999999999999999999999986
No 73
>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=99.12 E-value=7e-11 Score=75.61 Aligned_cols=37 Identities=14% Similarity=0.285 Sum_probs=33.7
Q ss_pred CCchhHhhhCCCCCCCeEEe-CCeeeecHHHHHHHHHh
Q psy15093 4 TRDKKARTNFEATPPPILID-NGLAVLENEKIERHIMK 40 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~-~g~~l~ES~aI~~YL~~ 40 (179)
.++++|+++||.|+||+|++ +|.+|+||.||++||++
T Consensus 37 ~~~~~~~~~nP~~~vP~L~~~~g~~l~es~aI~~yL~~ 74 (75)
T cd03044 37 NKTPEFLKKFPLGKVPAFEGADGFCLFESNAIAYYVAN 74 (75)
T ss_pred cCCHHHHHhCCCCCCCEEEcCCCCEEeeHHHHHHHHhh
Confidence 45789999999999999986 58999999999999986
No 74
>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=99.11 E-value=8.5e-11 Score=75.64 Aligned_cols=37 Identities=22% Similarity=0.333 Sum_probs=33.7
Q ss_pred chhHhhhCCCCCCCeEEe--CCeeeecHHHHHHHHHhhC
Q psy15093 6 DKKARTNFEATPPPILID--NGLAVLENEKIERHIMKNV 42 (179)
Q Consensus 6 ~~~~~~~nP~g~vPvL~~--~g~~l~ES~aI~~YL~~~~ 42 (179)
.++|+++||.|+||+|++ +|.+++||.+|++||+++|
T Consensus 39 ~~~~~~~~p~~~vP~l~~~~~~~~l~es~~I~~yL~~~~ 77 (77)
T cd03041 39 RDKFLEKGGKVQVPYLVDPNTGVQMFESADIVKYLFKTY 77 (77)
T ss_pred HHHHHHhCCCCcccEEEeCCCCeEEEcHHHHHHHHHHhC
Confidence 578999999999999987 4689999999999999876
No 75
>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=99.10 E-value=2.5e-10 Score=75.91 Aligned_cols=65 Identities=18% Similarity=0.315 Sum_probs=52.4
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHH
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHM 145 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~ 145 (179)
...+++.+.++.||++|+ +++|++|+++|+||+++++.+.++....... .+.+.+|++.+|+++|
T Consensus 36 ~~~~~~~~~~~~l~~~L~--~~~~~~g~~~t~aDi~~~~~l~~~~~~~~~~---~~~~~~p~l~~~~~~~ 100 (100)
T cd00299 36 EAREELAAALAALEKLLA--GRPYLAGDRFSLADIALAPVLARLDLLGPLL---GLLDEYPRLAAWYDRL 100 (100)
T ss_pred HHHHHHHHHHHHHHHHHc--cCCCCCCCCcCHHHHHHHHHHHHHHHhhhhh---hhhccCccHHHHHHhC
Confidence 345678999999999998 6789999999999999999999886533211 1246899999999875
No 76
>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=99.09 E-value=1.1e-10 Score=76.14 Aligned_cols=29 Identities=21% Similarity=0.311 Sum_probs=27.7
Q ss_pred CCCCCCeEEeCCeeeecHHHHHHHHHhhC
Q psy15093 14 EATPPPILIDNGLAVLENEKIERHIMKNV 42 (179)
Q Consensus 14 P~g~vPvL~~~g~~l~ES~aI~~YL~~~~ 42 (179)
|+|+||+|++||.+|+||.||++||+++|
T Consensus 54 P~g~vP~L~~~g~~l~ES~AIl~YLa~~~ 82 (82)
T cd03075 54 DFPNLPYYIDGDVKLTQSNAILRYIARKH 82 (82)
T ss_pred cCCCCCEEEECCEEEeehHHHHHHHhhcC
Confidence 99999999999999999999999999875
No 77
>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=99.08 E-value=1.4e-10 Score=73.91 Aligned_cols=35 Identities=17% Similarity=0.251 Sum_probs=32.7
Q ss_pred CchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHH
Q psy15093 5 RDKKARTNFEATPPPILIDNGLAVLENEKIERHIM 39 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~ 39 (179)
++++|+++||.|+||+|+++|.+|+||.||++||+
T Consensus 39 ~~~~~~~~nP~g~vP~L~~~g~~l~eS~aI~~YL~ 73 (73)
T cd03043 39 TRARILEFSPTGKVPVLVDGGIVVWDSLAICEYLA 73 (73)
T ss_pred ccHHHHhhCCCCcCCEEEECCEEEEcHHHHHHHhC
Confidence 45899999999999999999999999999999984
No 78
>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=99.06 E-value=2.1e-10 Score=72.59 Aligned_cols=35 Identities=17% Similarity=0.102 Sum_probs=33.0
Q ss_pred CchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHH
Q psy15093 5 RDKKARTNFEATPPPILIDNGLAVLENEKIERHIM 39 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~ 39 (179)
++++|+++||.|+||+|+++|.+++||.||++||+
T Consensus 39 ~~~~~~~~~p~~~vP~l~~~~~~i~es~aI~~yl~ 73 (73)
T cd03056 39 RTPEFLALNPNGEVPVLELDGRVLAESNAILVYLA 73 (73)
T ss_pred CCHHHHHhCCCCCCCEEEECCEEEEcHHHHHHHhC
Confidence 57899999999999999999999999999999984
No 79
>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=99.06 E-value=2.2e-10 Score=72.53 Aligned_cols=36 Identities=17% Similarity=0.102 Sum_probs=33.5
Q ss_pred CCchhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHH
Q psy15093 4 TRDKKARTNFEATPPPILIDNGLAVLENEKIERHIM 39 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~ 39 (179)
.++++|+++||.|+||+|+++|.+++||.||++||+
T Consensus 38 ~~~~~~~~~~p~~~vP~l~~~~~~l~es~aI~~yL~ 73 (73)
T cd03042 38 QLSPAYRALNPQGLVPTLVIDGLVLTQSLAIIEYLD 73 (73)
T ss_pred cCChHHHHhCCCCCCCEEEECCEEEEcHHHHHHHhC
Confidence 356899999999999999999999999999999995
No 80
>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=99.05 E-value=4.1e-10 Score=76.05 Aligned_cols=62 Identities=16% Similarity=0.180 Sum_probs=50.8
Q ss_pred HHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHh
Q psy15093 77 SINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMY 146 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~ 146 (179)
..+++.+.++.||+.|+ +++|++|+++|+|||++++.+.++.. .+++ ...+|+|.+|+++++
T Consensus 44 ~~~~~~~~l~~le~~L~--~~~~l~g~~~slaDi~~~~~~~~~~~-----~~~~-~~~~p~l~~~~~~~~ 105 (105)
T cd03179 44 LRERGHAALAVLEAHLA--GRDFLVGDALTIADIALAAYTHVADE-----GGFD-LADYPAIRAWLARIE 105 (105)
T ss_pred HHHHHHHHHHHHHHHHc--cCccccCCCCCHHHHHHHHHHHhccc-----cCCC-hHhCccHHHHHHhhC
Confidence 45678889999999997 67899999999999999998887642 1233 367999999999874
No 81
>KOG4244|consensus
Probab=99.04 E-value=1.2e-09 Score=84.18 Aligned_cols=135 Identities=19% Similarity=0.294 Sum_probs=89.0
Q ss_pred HhhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCCCCchHHHHHHH-----H--------------HHH-----
Q psy15093 9 ARTNFEATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLFVQDKEVATLIE-----N--------------LYS----- 64 (179)
Q Consensus 9 ~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~~~~~~~-----~--------------~~~----- 64 (179)
....+++|++|.++-+|.-+.+|.-|..+|.+.|.-...|.+.+...+...+ . ++.
T Consensus 85 ~~~rSr~G~lPFIELNGe~iaDS~~I~~~L~~hf~~~~~L~~e~~a~s~Al~rm~dnhL~~~l~y~k~~~~~~~~~~~~~ 164 (281)
T KOG4244|consen 85 LKRRSRNGTLPFIELNGEHIADSDLIEDRLRKHFKIPDDLSAEQRAQSRALSRMADNHLFWILLYYKGADDAWLNTDRKL 164 (281)
T ss_pred ceeeccCCCcceEEeCCeeccccHHHHHHHHHHcCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHhhhcchHHHHHHHhc
Confidence 3367899999999999999999999999999988642225554432211000 0 000
Q ss_pred ---------HHHHHH-----cCC----------C---hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHH
Q psy15093 65 ---------KLKLML-----LKK----------D---DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQ 117 (179)
Q Consensus 65 ---------~~~~~~-----~~~----------~---~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~ 117 (179)
.+..++ ..+ + ++..+-+.+.|+.+++.|. +.+||.||++|-+|+++++.|.
T Consensus 165 ~~l~~~l~~~l~~~~~~~~f~~kv~~r~~g~IG~f~~~Ei~ell~rDlr~i~~~Lg--~KkflfGdkit~~DatvFgqLa 242 (281)
T KOG4244|consen 165 IGLPGFLFPLLLPLFWKAIFGKKVYKRSTGAIGDFESAEIDELLHRDLRAISDYLG--DKKFLFGDKITPADATVFGQLA 242 (281)
T ss_pred cCccccchHHHHHHHHHHHHHHHHHHHhhccccCcCHHHHHHHHHHHHHHHHHHhC--CCccccCCCCCcceeeehhhhh
Confidence 000011 000 0 2233456788999999998 7899999999999999998887
Q ss_pred HHHHhhhcccCc-c-cccccHHHHHHHHHHhc
Q psy15093 118 HIRVAGSYFMQF-E-IPTYMKHLWHYMKHMYE 147 (179)
Q Consensus 118 ~~~~~~~~~~~~-~-~~~~~p~l~~w~~~~~~ 147 (179)
.+-. ...... + +..+||+|..|.+|+++
T Consensus 243 ~v~Y--P~~~~i~d~le~d~p~l~eYceRIr~ 272 (281)
T KOG4244|consen 243 QVYY--PFRSHISDLLEGDFPNLLEYCERIRK 272 (281)
T ss_pred heec--cCCCcHHHHHhhhchHHHHHHHHHHH
Confidence 5432 110011 1 12589999999999985
No 82
>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=99.02 E-value=2.6e-10 Score=74.53 Aligned_cols=35 Identities=17% Similarity=0.245 Sum_probs=32.2
Q ss_pred hHhhhCCCCCCCeEEeC-CeeeecHHHHHHHHHhhCC
Q psy15093 8 KARTNFEATPPPILIDN-GLAVLENEKIERHIMKNVP 43 (179)
Q Consensus 8 ~~~~~nP~g~vPvL~~~-g~~l~ES~aI~~YL~~~~p 43 (179)
++ ++||.|+||+|+++ |.+++||.+|++||+++||
T Consensus 49 ~~-~~~p~~~vP~L~~~~~~~l~eS~aI~~yL~~~~p 84 (84)
T cd03038 49 EL-TSGGFYTVPVIVDGSGEVIGDSFAIAEYLEEAYP 84 (84)
T ss_pred cc-cCCCCceeCeEEECCCCEEeCHHHHHHHHHHhCc
Confidence 44 78999999999998 8999999999999999885
No 83
>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=99.02 E-value=2.4e-10 Score=72.37 Aligned_cols=34 Identities=15% Similarity=0.224 Sum_probs=31.4
Q ss_pred hhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHh
Q psy15093 7 KKARTNFEATPPPILIDNGLAVLENEKIERHIMK 40 (179)
Q Consensus 7 ~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~ 40 (179)
++|+++||.|+||+|+++|.+|+||.||++||++
T Consensus 39 ~~~~~~~p~~~vP~L~~~~~~l~es~aI~~yL~~ 72 (72)
T cd03039 39 LDLKPTLPFGQLPVLEIDGKKLTQSNAILRYLAR 72 (72)
T ss_pred hhhccCCcCCCCCEEEECCEEEEecHHHHHHhhC
Confidence 4588999999999999999999999999999974
No 84
>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=99.00 E-value=3.5e-09 Score=71.51 Aligned_cols=65 Identities=15% Similarity=0.147 Sum_probs=50.1
Q ss_pred HHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHH
Q psy15093 77 SINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHM 145 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~ 145 (179)
..+.+.+.++.||+.|...+++|++|+++|+|||++++.+.++...... .....||++.+|++++
T Consensus 40 ~~~~~~~~l~~le~~l~~~~~~~~~G~~~s~aDi~l~~~~~~~~~~~~~----~~~~~~p~l~~~~~~~ 104 (104)
T cd03192 40 LKEAIPKYLKKLEKILKENGGGYLVGDKLTWADLVVFDVLDYLLYLDPK----LLLKKYPKLKALRERV 104 (104)
T ss_pred HHHhhHHHHHHHHHHHHHcCCCeeeCCCccHHHHHHHHHHHHHHhhCch----hhHHhChhHHHHHHhC
Confidence 3456788999999999732278999999999999999999887532211 1136799999999875
No 85
>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=99.00 E-value=4.7e-10 Score=70.90 Aligned_cols=34 Identities=21% Similarity=0.240 Sum_probs=31.3
Q ss_pred CchhHhhhCCCCCCCeEEe-CCeeeecHHHHHHHH
Q psy15093 5 RDKKARTNFEATPPPILID-NGLAVLENEKIERHI 38 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~~-~g~~l~ES~aI~~YL 38 (179)
++++|+++||.|+||+|++ ||.+|+||.||++|+
T Consensus 36 ~~~~~~~~np~~~vP~L~~~~g~~l~eS~aI~~y~ 70 (71)
T cd03060 36 KPAEMLAASPKGTVPVLVLGNGTVIEESLDIMRWA 70 (71)
T ss_pred CCHHHHHHCCCCCCCEEEECCCcEEecHHHHHHhh
Confidence 4689999999999999987 499999999999997
No 86
>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=99.00 E-value=6.3e-10 Score=71.97 Aligned_cols=37 Identities=11% Similarity=0.102 Sum_probs=31.9
Q ss_pred hhHhhhC-----CCCCCCeEEeCCeeeecHHHHHHHHHhhCC
Q psy15093 7 KKARTNF-----EATPPPILIDNGLAVLENEKIERHIMKNVP 43 (179)
Q Consensus 7 ~~~~~~n-----P~g~vPvL~~~g~~l~ES~aI~~YL~~~~p 43 (179)
++|.+.| |+|+||+|++||.+|+||.||++||+++|+
T Consensus 36 ~~~~~~~~~~~~~~g~vP~L~~~g~~l~ES~AI~~YL~~~~~ 77 (79)
T cd03077 36 EDLEKLKKDGSLMFQQVPMVEIDGMKLVQTRAILNYIAGKYN 77 (79)
T ss_pred HHHHhhccccCCCCCCCCEEEECCEEEeeHHHHHHHHHHHcC
Confidence 4455555 599999999999999999999999999985
No 87
>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=98.99 E-value=3.9e-10 Score=71.59 Aligned_cols=36 Identities=19% Similarity=0.235 Sum_probs=32.5
Q ss_pred CCchhHhhhCCCCCCCeEE-eCCeeeecHHHHHHHHH
Q psy15093 4 TRDKKARTNFEATPPPILI-DNGLAVLENEKIERHIM 39 (179)
Q Consensus 4 ~~~~~~~~~nP~g~vPvL~-~~g~~l~ES~aI~~YL~ 39 (179)
.+.++|+++||.|+||+|+ +||.+++||.||++||+
T Consensus 37 ~~~~~~~~~~p~~~vP~l~~~~g~~l~es~aI~~yLe 73 (73)
T cd03049 37 SDDESLLAVNPLGKIPALVLDDGEALFDSRVICEYLD 73 (73)
T ss_pred cCChHHHHhCCCCCCCEEEECCCCEEECHHHHHhhhC
Confidence 3468999999999999997 58899999999999995
No 88
>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=98.95 E-value=8.3e-10 Score=69.84 Aligned_cols=35 Identities=26% Similarity=0.300 Sum_probs=32.0
Q ss_pred CchhHhhhCCCCCCCeEE-eCCeeeecHHHHHHHHH
Q psy15093 5 RDKKARTNFEATPPPILI-DNGLAVLENEKIERHIM 39 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~-~~g~~l~ES~aI~~YL~ 39 (179)
+.++|.++||.|+||+|+ ++|.+++||.||++||+
T Consensus 39 ~~~~~~~~~p~~~vP~l~~~~~~~l~es~aI~~yLe 74 (74)
T cd03051 39 RSPEFLAKNPAGTVPVLELDDGTVITESVAICRYLE 74 (74)
T ss_pred CCHHHHhhCCCCCCCEEEeCCCCEEecHHHHHHHhC
Confidence 468899999999999997 57889999999999995
No 89
>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=98.94 E-value=1.1e-09 Score=70.06 Aligned_cols=34 Identities=18% Similarity=0.179 Sum_probs=31.6
Q ss_pred hhhCCCCCCCeEEeCCeeeecHHHHHHHHHhhCC
Q psy15093 10 RTNFEATPPPILIDNGLAVLENEKIERHIMKNVP 43 (179)
Q Consensus 10 ~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p 43 (179)
.++||.|+||+|+++|.+++||.+|++||+++|.
T Consensus 42 ~~~~p~g~vPvl~~~g~~l~eS~~I~~yL~~~~~ 75 (75)
T cd03080 42 AKRSPKGKLPFIELNGEKIADSELIIDHLEEKYG 75 (75)
T ss_pred ccCCCCCCCCEEEECCEEEcCHHHHHHHHHHHcC
Confidence 4789999999999999999999999999999873
No 90
>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=98.86 E-value=2.6e-09 Score=70.58 Aligned_cols=35 Identities=17% Similarity=0.012 Sum_probs=31.8
Q ss_pred CchhHhhhCCCCCCCeEEeC-CeeeecHHHHHHHHH
Q psy15093 5 RDKKARTNFEATPPPILIDN-GLAVLENEKIERHIM 39 (179)
Q Consensus 5 ~~~~~~~~nP~g~vPvL~~~-g~~l~ES~aI~~YL~ 39 (179)
++++|+++||.|+||+|+++ |.+|+||.||++||+
T Consensus 54 ~~~~~~~~np~~~vPvL~~~~g~~l~eS~aI~~yLe 89 (89)
T cd03055 54 KPDWFLEKNPQGKVPALEIDEGKVVYESLIICEYLD 89 (89)
T ss_pred CcHHHHhhCCCCCcCEEEECCCCEEECHHHHHHhhC
Confidence 45789999999999999876 899999999999995
No 91
>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=98.81 E-value=8e-09 Score=72.73 Aligned_cols=69 Identities=14% Similarity=0.190 Sum_probs=52.4
Q ss_pred hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcc-cccccHHHHHHHHHH
Q psy15093 75 DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFE-IPTYMKHLWHYMKHM 145 (179)
Q Consensus 75 ~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~-~~~~~p~l~~w~~~~ 145 (179)
++..+...+.++.|++.|. +++||+||++|.||+++++.+..+.........+. ...+||+|.+|.+||
T Consensus 56 ee~~~~~~~~l~aLs~~Lg--~~~~l~Gd~pT~~Da~vf~~la~~~~~~~~~~~l~~~~~~~pnL~~y~~Ri 125 (126)
T cd03211 56 DQVIEEVDQCCQALSQRLG--TQPYFFGDQPTELDALVFGHLFTILTTQLPNDELAEKVKKYSNLLAFCRRI 125 (126)
T ss_pred HHHHHHHHHHHHHHHHHHC--CCCCCCCCCCcHHHHHHHHHHHHHHhcCCCChHHHHHHHhCcHHHHHHHhc
Confidence 4556778899999999999 68899999999999999999877642201000111 135899999999997
No 92
>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=98.78 E-value=1.8e-08 Score=72.44 Aligned_cols=65 Identities=15% Similarity=0.182 Sum_probs=48.7
Q ss_pred HHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCc-ccccccHHHHHHHHHHhc
Q psy15093 77 SINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQF-EIPTYMKHLWHYMKHMYE 147 (179)
Q Consensus 77 ~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~-~~~~~~p~l~~w~~~~~~ 147 (179)
.++.|..+++..-+.+.. +++|++|+++|+|||++++++..+... .++ ++ ..||+|.+|++||.+
T Consensus 80 ~r~~L~~a~~~w~~~~~~-~~~FlaGd~ptIADisvyg~l~s~e~~----~~~~Dl-~~~p~I~~W~eRm~~ 145 (149)
T cd03197 80 VREWLYDALNTWVAALGK-DRQFHGGSKPNLADLAVYGVLRSVEGH----PAFKDM-VEETKIGEWYERMDA 145 (149)
T ss_pred HHHHHHHHHHHHHHHhcC-CCCccCCCCCCHHHHHHHHHHHHHHHh----ccccch-hhCcCHHHHHHHHHH
Confidence 356677666654444543 468999999999999999999876532 234 43 589999999999986
No 93
>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=98.77 E-value=2.4e-08 Score=66.95 Aligned_cols=62 Identities=10% Similarity=0.070 Sum_probs=48.5
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHH
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHM 145 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~ 145 (179)
.....+.+.|..+|++|+ +++| |++|+|||++++.+.++.... .+.+..++||+|.+|+++|
T Consensus 37 ~~~~~~~~~l~~le~~L~--~~~~---d~~TlADi~l~~~l~~~~~~~---~~~~~~~~~p~l~~w~~rm 98 (98)
T cd03205 37 RQRGKIERALDALEAELA--KLPL---DPLDLADIAVACALGYLDFRH---PDLDWRAAHPALAAWYARF 98 (98)
T ss_pred HHHHHHHHHHHHHHHhhh--hCCC---CCCCHHHHHHHHHHHHHHhHc---cCcchhhhChHHHHHHHhC
Confidence 346778999999999998 5678 899999999999988775321 1222236899999999985
No 94
>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=98.76 E-value=1.5e-08 Score=72.40 Aligned_cols=70 Identities=17% Similarity=0.193 Sum_probs=51.9
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCc-ccccccHHHHHHHHHHhc
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQF-EIPTYMKHLWHYMKHMYE 147 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~-~~~~~~p~l~~w~~~~~~ 147 (179)
+..++..+.++.|++.|. +++||+||++|++|+++++.+..+.......... ....+||+|.+|++||.+
T Consensus 64 ~~~~~a~~~l~~l~~~L~--~~~~~~Gd~~t~~D~~~~~~l~~~~~~~~~~~~l~~~~~~~pnL~~~~~ri~~ 134 (137)
T cd03212 64 EIYRDAKECLNLLSQRLG--ESQFFFGDTPTSLDALVFGYLAPLLKAPLPNNKLQNHLKQCPNLCRFCDRILS 134 (137)
T ss_pred HHHHHHHHHHHHHHHHHC--CCCcCCCCCCcHHHHHHHHHHHHHHhccCCChHHHHHHHHCcHHHHHHHHHHH
Confidence 445677889999999999 6799999999999999999887653211100000 012589999999999975
No 95
>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=98.74 E-value=1.5e-08 Score=63.94 Aligned_cols=34 Identities=24% Similarity=0.197 Sum_probs=29.9
Q ss_pred hhHhhhCCCCCCCeEEeC-CeeeecHHHHHHHHHh
Q psy15093 7 KKARTNFEATPPPILIDN-GLAVLENEKIERHIMK 40 (179)
Q Consensus 7 ~~~~~~nP~g~vPvL~~~-g~~l~ES~aI~~YL~~ 40 (179)
...++.||.|+||+|+++ |.+++||.+|++||++
T Consensus 37 ~~~~~~~~~~~vP~L~~~~~~~l~es~aI~~yL~~ 71 (71)
T cd03037 37 ATPIRMIGAKQVPILEKDDGSFMAESLDIVAFIDE 71 (71)
T ss_pred HHHHHhcCCCccCEEEeCCCeEeehHHHHHHHHhC
Confidence 455688999999999875 8999999999999975
No 96
>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=98.74 E-value=1.1e-08 Score=65.09 Aligned_cols=30 Identities=13% Similarity=0.025 Sum_probs=27.9
Q ss_pred hCCCCCCCeEEeCCeeeecHHHHHHHHHhh
Q psy15093 12 NFEATPPPILIDNGLAVLENEKIERHIMKN 41 (179)
Q Consensus 12 ~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~ 41 (179)
.+|.||||+|++||.+|+||.||+.||+++
T Consensus 45 ~~P~GkVP~L~~dg~vI~eS~aIl~yL~~~ 74 (74)
T cd03079 45 MSPSGKVPFIRVGNQIVSEFGPIVQFVEAK 74 (74)
T ss_pred cCCCCcccEEEECCEEEeCHHHHHHHHhcC
Confidence 678999999999999999999999999864
No 97
>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=98.62 E-value=4.1e-08 Score=62.05 Aligned_cols=30 Identities=27% Similarity=0.267 Sum_probs=28.4
Q ss_pred hCCCCCCCeEEeCCeeeecHHHHHHHHHhh
Q psy15093 12 NFEATPPPILIDNGLAVLENEKIERHIMKN 41 (179)
Q Consensus 12 ~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~ 41 (179)
+||.|+||+|+++|.+++||.+|++||+++
T Consensus 43 ~~p~g~vP~l~~~g~~l~es~~I~~yL~~~ 72 (72)
T cd03054 43 RSPTGKLPFLELNGEKIADSEKIIEYLKKK 72 (72)
T ss_pred cCCCcccCEEEECCEEEcCHHHHHHHHhhC
Confidence 799999999999999999999999999874
No 98
>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=98.62 E-value=5.1e-08 Score=62.35 Aligned_cols=33 Identities=15% Similarity=0.117 Sum_probs=29.1
Q ss_pred hhhCCCCCCCeEEeC----CeeeecHHHHHHHHHhhC
Q psy15093 10 RTNFEATPPPILIDN----GLAVLENEKIERHIMKNV 42 (179)
Q Consensus 10 ~~~nP~g~vPvL~~~----g~~l~ES~aI~~YL~~~~ 42 (179)
++.||.|+||+|+++ |.+|+||.+|++||+++.
T Consensus 40 ~~~~~~~~vP~l~~~~~~~~~~l~eS~~I~~yL~~~~ 76 (77)
T cd03040 40 IKWSSYKKVPILRVESGGDGQQLVDSSVIISTLKTYL 76 (77)
T ss_pred HHHhCCCccCEEEECCCCCccEEEcHHHHHHHHHHHc
Confidence 467999999999865 789999999999999864
No 99
>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=98.51 E-value=1.4e-07 Score=58.15 Aligned_cols=32 Identities=22% Similarity=0.180 Sum_probs=30.1
Q ss_pred hHhhhCCCCCCCeEEeCCeeeecHHHHHHHHH
Q psy15093 8 KARTNFEATPPPILIDNGLAVLENEKIERHIM 39 (179)
Q Consensus 8 ~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~ 39 (179)
++++.+|.+++|+|+++|.+++||.+|++||+
T Consensus 40 ~~~~~~~~~~~P~l~~~~~~~~es~~I~~yl~ 71 (71)
T cd00570 40 EFLALNPLGKVPVLEDGGLVLTESLAILEYLA 71 (71)
T ss_pred HHHhcCCCCCCCEEEECCEEEEcHHHHHHHhC
Confidence 58889999999999999999999999999985
No 100
>KOG3027|consensus
Probab=98.34 E-value=7.9e-06 Score=61.24 Aligned_cols=131 Identities=19% Similarity=0.223 Sum_probs=83.6
Q ss_pred hCCCCCCCeEEeCCeeeecHHHHHHHHHhhCCCCCCCCCCchHHHH------HH------HHHHHHHH------------
Q psy15093 12 NFEATPPPILIDNGLAVLENEKIERHIMKNVPGGHNLFVQDKEVAT------LI------ENLYSKLK------------ 67 (179)
Q Consensus 12 ~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~~~~~~------~~------~~~~~~~~------------ 67 (179)
++|.|+||.|..|.+++.|=.+|+.+.+.+--.-.+....+. .++ .. .++|-.|.
T Consensus 62 mSP~G~vPllr~g~~~~aef~pIV~fVeak~~~l~s~lsE~q-kadmra~vslVen~~t~aEl~~s~~de~ty~~vT~~R 140 (257)
T KOG3027|consen 62 MSPGGKVPLLRIGKTLFAEFEPIVDFVEAKGVTLTSWLSEDQ-KADMRAYVSLVENLLTTAELYVSWNDEETYDEVTALR 140 (257)
T ss_pred cCCCCCCceeeecchhhhhhhHHHHHHHHhccchhhhhhhHH-HHHHHHHHHHHHHHHHHHHHHHHhccHHHHHHHhhhc
Confidence 789999999999999999999999999887521011111111 111 00 11111111
Q ss_pred -------------HHHcC--------------C-ChHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHH
Q psy15093 68 -------------LMLLK--------------K-DDVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHI 119 (179)
Q Consensus 68 -------------~~~~~--------------~-~~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~ 119 (179)
.|.+. + .++..+++.++.+.|+..|. .++||.|+++|-+|..++..+..+
T Consensus 141 ~gs~ypWPLs~i~~f~Krr~~~r~lk~~~W~~~~~DqVie~vdkc~~aLsa~L~--~q~yf~g~~P~elDAlvFGHlyti 218 (257)
T KOG3027|consen 141 YGSVYPWPLSHILPFVKRRKALRELKVYDWDDKTMDQVIEQVDKCCRALSAQLG--SQPYFTGDQPTELDALVFGHLYTI 218 (257)
T ss_pred cCCCCCCcHHHHHHHHHHHHHHHHHhhcCcccccHHHHHHHHHHHHHHHHHHhc--CCCccCCCCccHHHHHHHhhhHHh
Confidence 01000 0 03455678888899999998 789999999999999999877654
Q ss_pred HHhhhcccCcc---cccccHHHHHHHHHHhc
Q psy15093 120 RVAGSYFMQFE---IPTYMKHLWHYMKHMYE 147 (179)
Q Consensus 120 ~~~~~~~~~~~---~~~~~p~l~~w~~~~~~ 147 (179)
-.. ...+.. +...|++|-++-+|+.+
T Consensus 219 lTt--~Lpn~ela~~lkkys~LlefcrrIeq 247 (257)
T KOG3027|consen 219 LTT--RLPNMELANILKKYSNLLEFCRRIEQ 247 (257)
T ss_pred hhh--cCCcHHHHHHHHHhHHHHHHHHHHHH
Confidence 221 122222 22578888888888764
No 101
>COG2999 GrxB Glutaredoxin 2 [Posttranslational modification, protein turnover, chaperones]
Probab=98.30 E-value=9.5e-06 Score=59.50 Aligned_cols=126 Identities=15% Similarity=0.188 Sum_probs=79.1
Q ss_pred CCCCCeE-EeCCeeeecHHHHHHHHHhhCCCCCCCCCCc-hHHHH----H----HHHHHHHHH-------------HHHc
Q psy15093 15 ATPPPIL-IDNGLAVLENEKIERHIMKNVPGGHNLFVQD-KEVAT----L----IENLYSKLK-------------LMLL 71 (179)
Q Consensus 15 ~g~vPvL-~~~g~~l~ES~aI~~YL~~~~p~~~~L~p~~-~~~~~----~----~~~~~~~~~-------------~~~~ 71 (179)
..+||+| .+||..+.||..|+.|+++.++. +.|..+. ++... + ..-++++|. .++.
T Consensus 45 ~KqVPiL~Kedg~~m~ESlDIV~y~d~~~~~-~~lt~~~~pai~~wlrkv~~y~nkll~PR~~k~~l~EF~T~sA~~yf~ 123 (215)
T COG2999 45 QKQVPILQKEDGRAMPESLDIVHYVDELDGK-PLLTGKVRPAIEAWLRKVNGYLNKLLLPRFAKSALPEFATPSARKYFT 123 (215)
T ss_pred ccccceEEccccccchhhhHHHHHHHHhcCc-hhhccCcCHHHHHHHHHhcchHhhhhhhhHhhcCCccccCHHHHHHHH
Confidence 5689999 57899999999999999998874 3333222 22111 1 011112221 1221
Q ss_pred CC-C-------------hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHH
Q psy15093 72 KK-D-------------DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKH 137 (179)
Q Consensus 72 ~~-~-------------~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~ 137 (179)
.+ . .+...++...++.+++.+.. .. -....+|.=||.++|.|..+..+ .|+..| .+
T Consensus 124 ~KKe~s~g~F~~~l~~t~~~~~~i~~dl~~l~~Li~~--~s-~~n~~l~~ddi~vFplLRnlt~v----~gi~wp---s~ 193 (215)
T COG2999 124 DKKEASEGSFESLLNHTAQYLKRIQADLRALDKLIVG--PS-AVNGELSEDDILVFPLLRNLTLV----AGIQWP---SR 193 (215)
T ss_pred hhhhhccccHHHHHhchHHHHHHHHHHHHHHHHHhcC--cc-hhccccchhhhhhhHHhccceec----ccCCCc---HH
Confidence 11 1 23456788889999998872 22 33446999999999998776543 233333 36
Q ss_pred HHHHHHHHhccccc
Q psy15093 138 LWHYMKHMYELEAF 151 (179)
Q Consensus 138 l~~w~~~~~~~p~~ 151 (179)
+..|+.+|.+.-.+
T Consensus 194 v~dy~~~msektqV 207 (215)
T COG2999 194 VADYRDNMSEKTQV 207 (215)
T ss_pred HHHHHHHHHHhhCc
Confidence 99999999875443
No 102
>KOG3029|consensus
Probab=98.12 E-value=4.8e-05 Score=59.67 Aligned_cols=64 Identities=16% Similarity=0.171 Sum_probs=45.0
Q ss_pred HHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhc
Q psy15093 79 NALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYE 147 (179)
Q Consensus 79 ~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~ 147 (179)
+.+.++.+..-..|.+ +++|+.|+++++||++++..|..+.-+ ..++ ++ -+..+|..|+.+|.+
T Consensus 291 e~lydA~d~Wvaalgk-nr~flGG~kPnLaDLsvfGvl~sm~gc-~afk--d~-~q~t~I~eW~~rmea 354 (370)
T KOG3029|consen 291 EHLYDAADQWVAALGK-NRPFLGGKKPNLADLSVFGVLRSMEGC-QAFK--DC-LQNTSIGEWYYRMEA 354 (370)
T ss_pred HHHHHHHHHHHHHhCC-CCCccCCCCCchhhhhhhhhhhHhhhh-hHHH--HH-HhcchHHHHHHHHHH
Confidence 3455555555555653 689999999999999999998877532 2222 11 256789999999875
No 103
>PF14834 GST_C_4: Glutathione S-transferase, C-terminal domain; PDB: 3BBY_A.
Probab=98.11 E-value=1.1e-05 Score=55.17 Aligned_cols=71 Identities=14% Similarity=0.143 Sum_probs=50.4
Q ss_pred hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccccccc
Q psy15093 75 DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQS 154 (179)
Q Consensus 75 ~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~ 154 (179)
+...+...+.+...+..|.. +++||+| ++||||..+++.+.++.. .|.++| +++..|.++.-+||++++.
T Consensus 42 ~~a~~~a~kL~~~a~~ll~~-g~~~LFG-ewsIAD~dlA~ml~Rl~~-----~gd~vP---~~l~~Ya~~qwqrpsVQ~W 111 (117)
T PF14834_consen 42 EAAQAAAQKLIAVAERLLAD-GGPNLFG-EWSIADADLALMLNRLVT-----YGDPVP---ERLADYAERQWQRPSVQRW 111 (117)
T ss_dssp HHHHHHHHHHHHHHHHHTTT---SSTTS-S--HHHHHHHHHHHHHHT-----TT-------HHHHHHHHHHHT-HHHHHH
T ss_pred HHHHHHHHHHHHHHHHHhcc-CCCCccc-cchHHHHHHHHHHHHHHH-----cCCCCC---HHHHHHHHHHHCCHHHHHH
Confidence 45566778888888888874 5789999 599999999999998753 133343 4799999999999999876
Q ss_pred C
Q psy15093 155 C 155 (179)
Q Consensus 155 ~ 155 (179)
+
T Consensus 112 l 112 (117)
T PF14834_consen 112 L 112 (117)
T ss_dssp H
T ss_pred H
Confidence 4
No 104
>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=97.92 E-value=1.4e-05 Score=50.74 Aligned_cols=31 Identities=23% Similarity=0.218 Sum_probs=28.1
Q ss_pred hhCCCCCCCeEEeCCeeeecHHHHHHHHHhh
Q psy15093 11 TNFEATPPPILIDNGLAVLENEKIERHIMKN 41 (179)
Q Consensus 11 ~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~~ 41 (179)
..+|.|++|+|+++|..+.+|..|++||.++
T Consensus 42 ~~sp~gkLP~l~~~~~~i~d~~~Ii~~L~~~ 72 (73)
T cd03078 42 WRSPTGKLPALLTSGTKISGPEKIIEYLRKQ 72 (73)
T ss_pred CCCCCCccCEEEECCEEecChHHHHHHHHHc
Confidence 3568999999999999999999999999864
No 105
>KOG3028|consensus
Probab=97.86 E-value=0.00031 Score=55.91 Aligned_cols=65 Identities=20% Similarity=0.279 Sum_probs=46.7
Q ss_pred HHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCccc---ccccHHHHHHHHHHhcc
Q psy15093 80 ALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEI---PTYMKHLWHYMKHMYEL 148 (179)
Q Consensus 80 ~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~---~~~~p~l~~w~~~~~~~ 148 (179)
...+++..|.+.|. .++|++||++|--|+.++..+..+-... ...-.+ ...+++|.+|.+++.+.
T Consensus 167 ~Aska~~~LS~~Lg--s~kffFgd~psslDa~lfs~la~~~~~~--Lp~~~Lq~~l~~~~NL~~~~~~i~s~ 234 (313)
T KOG3028|consen 167 DASKALNLLSTLLG--SKKFFFGDKPSSLDALLFSYLAILLQVA--LPNDSLQVHLLAHKNLVRYVERIRSL 234 (313)
T ss_pred HHHHHHHHHHHHhc--CceEeeCCCCchHHHHHHHHHHHHHhcc--CCchhHHHHHHhcchHHHHHHHHHHH
Confidence 44567888888888 6789999999999999998887732221 111111 12489999999998763
No 106
>PF04399 Glutaredoxin2_C: Glutaredoxin 2, C terminal domain; InterPro: IPR007494 Glutaredoxins [, , ], also known as thioltransferases (disulphide reductases, are small proteins of approximately one hundred amino-acid residues which utilise glutathione and NADPH as cofactors. Oxidized glutathione is regenerated by glutathione reductase. Together these components compose the glutathione system []. Glutaredoxin functions as an electron carrier in the glutathione-dependent synthesis of deoxyribonucleotides by the enzyme ribonucleotide reductase. Like thioredoxin, which functions in a similar way, glutaredoxin possesses an active centre disulphide bond []. It exists in either a reduced or an oxidized form where the two cysteine residues are linked in an intramolecular disulphide bond. Glutaredoxin has been sequenced in a variety of species. On the basis of extensive sequence similarity, it has been proposed [] that Vaccinia virus protein O2L is most probably a glutaredoxin. Finally, it must be noted that Bacteriophage T4 thioredoxin seems also to be evolutionary related. In position 5 of the pattern T4 thioredoxin has Val instead of Pro. Unlike other glutaredoxins, glutaredoxin 2 (Grx2) cannot reduce ribonucleotide reductase. Grx2 has significantly higher catalytic activity in the reduction of mixed disulphides with glutathione (GSH) compared with other glutaredoxins. The active site residues (Cys9-Pro10-Tyr11-Cys12, in Escherichia coli Grx2, P39811 from SWISSPROT), which are found at the interface between the N- and C-terminal domains are identical to other glutaredoxins, but there is no other similarity between glutaredoxin 2 and other glutaredoxins. Grx2 is structurally similar to glutathione-S-transferases (GST), but there is no obvious sequence similarity. The inter-domain contacts are mainly hydrophobic, suggesting that the two domains are unlikely to be stable on their own. Both domains are needed for correct folding and activity of Grx2. It is thought that the primary function of Grx2 is to catalyse reversible glutathionylation of proteins with GSH in cellular redox regulation including the response to oxidative stress. The N-terminal domain is IPR004045 from INTERPRO.; PDB: 1G7O_A 3IR4_A.
Probab=97.21 E-value=0.001 Score=47.04 Aligned_cols=65 Identities=18% Similarity=0.281 Sum_probs=45.0
Q ss_pred HHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccc
Q psy15093 76 VSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEA 150 (179)
Q Consensus 76 ~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~ 150 (179)
+..+++...|..||..|. .... ++.++|+-||.++|.|..+.++ +|+.+| |+|++|+++|.+.-.
T Consensus 59 ~~i~~l~~~L~~Le~ll~--~~~~-~n~~LS~dDi~lFp~LR~Ltiv----kgi~~P---~~V~~Y~~~~s~~t~ 123 (132)
T PF04399_consen 59 ELIAELNADLEELEPLLA--SPNA-VNGELSIDDIILFPILRSLTIV----KGIQWP---PKVRAYMDRMSKATG 123 (132)
T ss_dssp HHHHHHHHHHHHHHHH-S--CTTB-TTSS--HHHHHHHHHHHHHCTC----TTS------HHHHHHHHHHHHHHT
T ss_pred HHHHHHHHHHHHHHHHhc--cccc-cCCCCCHHHHHHHHHHhhhhhc----cCCcCC---HHHHHHHHHHHHHcC
Confidence 456778888999999887 3333 4449999999999999877643 455544 689999999987543
No 107
>cd03199 GST_C_GRX2 GST_C family, Glutaredoxin 2 (GRX2) subfamily; composed of bacterial proteins similar to E. coli GRX2, an atypical GRX with a molecular mass of about 24kD (most GRXs range from 9-12kD). 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=97.08 E-value=0.0031 Score=44.30 Aligned_cols=66 Identities=18% Similarity=0.273 Sum_probs=50.1
Q ss_pred hHHHHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhcccc
Q psy15093 75 DVSINALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEA 150 (179)
Q Consensus 75 ~~~~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~ 150 (179)
.+..+++...|..++..+. ... .++.++|+-||.++|.|..+.++ +|+.+| |+|.+|+++|.+.-.
T Consensus 59 ~~~i~~l~~~L~~l~~ll~--~~~-~~n~~ls~DDi~lFp~LR~Lt~v----kgi~~P---~~V~~Y~~~~s~~t~ 124 (128)
T cd03199 59 PQYIAALNALLEELDPLIL--SSE-AVNGQLSTDDIILFPILRNLTLV----KGLVFP---PKVKAYLERMSALTK 124 (128)
T ss_pred HHHHHHHHHHHHHHHHHHc--Ccc-ccCCcCCHHHHHHHHHHhhhhhh----cCCCCC---HHHHHHHHHHHHHhC
Confidence 3556788899999999885 222 35668999999999999888754 344444 689999999987543
No 108
>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=96.80 E-value=0.0018 Score=40.94 Aligned_cols=27 Identities=26% Similarity=0.171 Sum_probs=25.4
Q ss_pred hCCCCCCCeEEe-CCeeeecHHHHHHHH
Q psy15093 12 NFEATPPPILID-NGLAVLENEKIERHI 38 (179)
Q Consensus 12 ~nP~g~vPvL~~-~g~~l~ES~aI~~YL 38 (179)
++|.|++|+|.+ ++..+.+-..|++||
T Consensus 44 ~Sptg~LP~L~~~~~~~vsg~~~Iv~yL 71 (72)
T PF10568_consen 44 LSPTGELPALIDSGGTWVSGFRNIVEYL 71 (72)
T ss_pred cCCCCCCCEEEECCCcEEECHHHHHHhh
Confidence 679999999998 899999999999998
No 109
>TIGR02190 GlrX-dom Glutaredoxin-family domain. This C-terminal domain with homology to glutaredoxin is fused to an N-terminal peroxiredoxin-like domain.
Probab=95.35 E-value=0.025 Score=36.04 Aligned_cols=33 Identities=18% Similarity=0.221 Sum_probs=29.1
Q ss_pred hhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHH
Q psy15093 7 KKARTNFEATPPPILIDNGLAVLENEKIERHIM 39 (179)
Q Consensus 7 ~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~ 39 (179)
+++...+...+||++..+|..+.++..|.+||+
T Consensus 47 ~~~~~~~g~~~vP~i~i~g~~igG~~~l~~~l~ 79 (79)
T TIGR02190 47 RSLRAVTGATTVPQVFIGGKLIGGSDELEAYLA 79 (79)
T ss_pred HHHHHHHCCCCcCeEEECCEEEcCHHHHHHHhC
Confidence 456667888999999999999999999999984
No 110
>KOG1147|consensus
Probab=94.32 E-value=0.023 Score=48.72 Aligned_cols=61 Identities=13% Similarity=0.235 Sum_probs=43.0
Q ss_pred HHHHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHH
Q psy15093 78 INALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMK 143 (179)
Q Consensus 78 ~~~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~ 143 (179)
..++...+..++..|. -..||+|..+|+||++++..|..-....... .....+-++.+|++
T Consensus 90 ~~~~s~~~~~ld~~l~--~~t~lvg~sls~Ad~aiw~~l~~n~~~~~~l---k~~k~~~~v~Rw~~ 150 (712)
T KOG1147|consen 90 FDEISSSLSELDKFLV--LRTFLVGNSLSIADFAIWGALHSNGMRQEQL---KAKKDYQNVERWYD 150 (712)
T ss_pred hHHHHHHHHHHHhhhh--HHHHhhccchhHHHHHHHHHHhcccchHHHH---HhhCCchhhhhhcC
Confidence 3567788888899888 5789999999999999998776421111111 11135668899988
No 111
>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=93.85 E-value=0.11 Score=31.67 Aligned_cols=32 Identities=9% Similarity=0.273 Sum_probs=26.6
Q ss_pred hhHhhhCCCCCCCeEEeCCeee--ecHHHHHHHH
Q psy15093 7 KKARTNFEATPPPILIDNGLAV--LENEKIERHI 38 (179)
Q Consensus 7 ~~~~~~nP~g~vPvL~~~g~~l--~ES~aI~~YL 38 (179)
+++++.++.+.||+|+.+|.++ +++.+|.++|
T Consensus 40 ~~~~~~~~~~~vP~~~~~~~~~~g~~~~~i~~~i 73 (74)
T TIGR02196 40 EEVLKVLGQRGVPVIVIGHKIIVGFDPEKLDQLL 73 (74)
T ss_pred HHHHHHhCCCcccEEEECCEEEeeCCHHHHHHHh
Confidence 4577889999999999888887 7888887776
No 112
>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=92.64 E-value=0.076 Score=36.83 Aligned_cols=33 Identities=24% Similarity=0.399 Sum_probs=16.1
Q ss_pred hhCCCCCCCeEEe--CCeeeecHHHHHHHHHhhCC
Q psy15093 11 TNFEATPPPILID--NGLAVLENEKIERHIMKNVP 43 (179)
Q Consensus 11 ~~nP~g~vPvL~~--~g~~l~ES~aI~~YL~~~~p 43 (179)
++|+-..-|-|.+ +|+.|+|++||++||..-|.
T Consensus 29 ~v~ed~~~~~L~~~~~gF~L~e~NAIvrYl~nDF~ 63 (122)
T PF09635_consen 29 EVNEDESGPLLKDKKSGFELFEPNAIVRYLANDFE 63 (122)
T ss_dssp EE-SS--S--EEE-S--S----HHHHHHHHTT--T
T ss_pred eeCCccccceeeecCCceEEecccHHHHHHHhhcC
Confidence 4566666788855 68999999999999998885
No 113
>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=92.52 E-value=0.24 Score=30.69 Aligned_cols=32 Identities=16% Similarity=0.187 Sum_probs=26.8
Q ss_pred hHhhhCCCCCCCeEEeCCeeeecHHHHHHHHH
Q psy15093 8 KARTNFEATPPPILIDNGLAVLENEKIERHIM 39 (179)
Q Consensus 8 ~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~ 39 (179)
++.......+||++..||..+.++..|.+||+
T Consensus 41 ~~~~~~g~~~vP~ifi~g~~igg~~~l~~~l~ 72 (72)
T cd03029 41 SLRAVTGAMTVPQVFIDGELIGGSDDLEKYFA 72 (72)
T ss_pred HHHHHhCCCCcCeEEECCEEEeCHHHHHHHhC
Confidence 34455677799999999999999999999985
No 114
>PRK10638 glutaredoxin 3; Provisional
Probab=91.05 E-value=0.44 Score=30.44 Aligned_cols=34 Identities=6% Similarity=-0.052 Sum_probs=28.6
Q ss_pred chhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHH
Q psy15093 6 DKKARTNFEATPPPILIDNGLAVLENEKIERHIM 39 (179)
Q Consensus 6 ~~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~ 39 (179)
.+++.++++.++||++..+|..+.....+..+-.
T Consensus 41 ~~~l~~~~g~~~vP~i~~~g~~igG~~~~~~~~~ 74 (83)
T PRK10638 41 REEMIKRSGRTTVPQIFIDAQHIGGCDDLYALDA 74 (83)
T ss_pred HHHHHHHhCCCCcCEEEECCEEEeCHHHHHHHHH
Confidence 4678889999999999999999988888776644
No 115
>cd02066 GRX_family Glutaredoxin (GRX) family; composed of GRX, approximately 10 kDa in size, and proteins containing a GRX or GRX-like domain. GRX is a glutathione (GSH) dependent reductase, catalyzing the disulfide reduction of target proteins such as ribonucleotide reductase. It contains a redox active CXXC motif in a TRX fold and uses a similar dithiol mechanism employed by TRXs for intramolecular disulfide bond reduction of protein substrates. Unlike TRX, GRX has preference for mixed GSH disulfide substrates, in which it uses a monothiol mechanism where only the N-terminal cysteine is required. The flow of reducing equivalents in the GRX system goes from NADPH - GSH reductase - GSH - GRX - protein substrates. By altering the redox state of target proteins, GRX is involved in many cellular functions including DNA synthesis, signal transduction and the defense against oxidative stress. Different classes are known including human GRX1 and GRX2, as well as E. coli GRX1 and GRX3, which
Probab=90.59 E-value=0.47 Score=28.49 Aligned_cols=31 Identities=10% Similarity=0.048 Sum_probs=26.7
Q ss_pred hhHhhhCCCCCCCeEEeCCeeeecHHHHHHH
Q psy15093 7 KKARTNFEATPPPILIDNGLAVLENEKIERH 37 (179)
Q Consensus 7 ~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~Y 37 (179)
+++.++++..++|++..+|..+..+..|.+.
T Consensus 40 ~~l~~~~~~~~~P~~~~~~~~igg~~~~~~~ 70 (72)
T cd02066 40 EELKELSGWPTVPQIFINGEFIGGYDDLKAL 70 (72)
T ss_pred HHHHHHhCCCCcCEEEECCEEEecHHHHHHh
Confidence 5677789999999999999999999888654
No 116
>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=90.13 E-value=0.35 Score=29.30 Aligned_cols=23 Identities=4% Similarity=0.027 Sum_probs=19.4
Q ss_pred hhHhhhCCCCCCCeEEeCCeeee
Q psy15093 7 KKARTNFEATPPPILIDNGLAVL 29 (179)
Q Consensus 7 ~~~~~~nP~g~vPvL~~~g~~l~ 29 (179)
++|.++||.++||+|+++|..+.
T Consensus 40 ~~~~~~~~~~~vP~i~~~~~~i~ 62 (73)
T cd02976 40 EELKKLNGYRSVPVVVIGDEHLS 62 (73)
T ss_pred HHHHHHcCCcccCEEEECCEEEe
Confidence 56888899999999998887664
No 117
>PF11801 Tom37_C: Tom37 C-terminal domain; 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=89.84 E-value=0.54 Score=34.62 Aligned_cols=39 Identities=28% Similarity=0.506 Sum_probs=30.4
Q ss_pred HHHHHHHHHHHHccC-CCceecCCC-CChhhhhHhhHHHHH
Q psy15093 81 LMSHLRKINDHLGRK-ETRFLTGDT-MCCFDCELMPRLQHI 119 (179)
Q Consensus 81 l~~~l~~le~~L~~~-~~~fl~Gd~-~TlAD~~~~~~l~~~ 119 (179)
-.+++..|++.|+.. ...|+.|+. +|-.||.+++.|..+
T Consensus 113 a~~~l~~L~~~L~~~~~~~~~f~~~~psslD~L~~ayL~l~ 153 (168)
T PF11801_consen 113 AMECLSLLEELLGEWEEARYFFGDSKPSSLDCLAFAYLALL 153 (168)
T ss_pred HHHHHHHHHHHHhhccccccccCCCCCCHHHHHHHHHHHHH
Confidence 456788889999831 127888887 999999999888754
No 118
>TIGR02200 GlrX_actino Glutaredoxin-like protein. This family of glutaredoxin-like proteins is limited to the Actinobacteria and contains the conserved CxxC motif.
Probab=86.00 E-value=0.69 Score=28.49 Aligned_cols=33 Identities=6% Similarity=0.135 Sum_probs=23.1
Q ss_pred hhHhhhC-CCCCCCeEE-eCCeeeecHH--HHHHHHH
Q psy15093 7 KKARTNF-EATPPPILI-DNGLAVLENE--KIERHIM 39 (179)
Q Consensus 7 ~~~~~~n-P~g~vPvL~-~~g~~l~ES~--aI~~YL~ 39 (179)
+++.++| +...||+++ ++|.++.++. -|+.+|.
T Consensus 40 ~~~~~~~~~~~~vP~i~~~~g~~l~~~~~~~~~~~l~ 76 (77)
T TIGR02200 40 DRVVSVNNGNMTVPTVKFADGSFLTNPSAAQVKAKLQ 76 (77)
T ss_pred HHHHHHhCCCceeCEEEECCCeEecCCCHHHHHHHhh
Confidence 4566777 999999995 5777776554 3555553
No 119
>PF11287 DUF3088: Protein of unknown function (DUF3088); InterPro: IPR021439 This family of proteins with unknown function appears to be restricted to Proteobacteria.
Probab=82.56 E-value=2 Score=29.37 Aligned_cols=29 Identities=17% Similarity=0.284 Sum_probs=23.1
Q ss_pred CCCCCeEEe-CCe-------------eeecHHHHHHHHHhhCC
Q psy15093 15 ATPPPILID-NGL-------------AVLENEKIERHIMKNVP 43 (179)
Q Consensus 15 ~g~vPvL~~-~g~-------------~l~ES~aI~~YL~~~~p 43 (179)
+...|+|+- +|. .|.++..|++||+++|+
T Consensus 66 ~QslPvLVL~~~~~~~~~~~~~~~~rfi~d~~~I~~~La~r~g 108 (112)
T PF11287_consen 66 NQSLPVLVLADGAPSPDDAGSHGGRRFIDDPRRILRYLAERHG 108 (112)
T ss_pred ccCCCEEEeCCCCCCcccccccCCeEEeCCHHHHHHHHHHHcC
Confidence 456899964 332 68999999999999996
No 120
>TIGR02183 GRXA Glutaredoxin, GrxA family. This model includes the E. coli glyutaredoxin GrxA which appears to have primary responsibility for the reduction of ribonucleotide reductase.
Probab=78.81 E-value=5 Score=25.72 Aligned_cols=28 Identities=14% Similarity=0.126 Sum_probs=25.4
Q ss_pred CCCCeEEeCCeeeecHHHHHHHHHhhCC
Q psy15093 16 TPPPILIDNGLAVLENEKIERHIMKNVP 43 (179)
Q Consensus 16 g~vPvL~~~g~~l~ES~aI~~YL~~~~p 43 (179)
..||++..||..+..+..|..|+.+.+.
T Consensus 56 ~tVP~ifi~g~~igG~~dl~~~~~~~~~ 83 (86)
T TIGR02183 56 ETVPQIFVDEKHVGGCTDFEQLVKENFD 83 (86)
T ss_pred CCcCeEEECCEEecCHHHHHHHHHhccc
Confidence 5899999999999999999999988764
No 121
>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=75.94 E-value=3.1 Score=25.56 Aligned_cols=27 Identities=11% Similarity=-0.041 Sum_probs=21.6
Q ss_pred hhHhhhCCCCCCCeEEeCCeeeecHHH
Q psy15093 7 KKARTNFEATPPPILIDNGLAVLENEK 33 (179)
Q Consensus 7 ~~~~~~nP~g~vPvL~~~g~~l~ES~a 33 (179)
+++.++++.++||++..+|..+..-..
T Consensus 41 ~el~~~~g~~~vP~v~i~~~~iGg~~~ 67 (73)
T cd03027 41 AELEERTGSSVVPQIFFNEKLVGGLTD 67 (73)
T ss_pred HHHHHHhCCCCcCEEEECCEEEeCHHH
Confidence 578889999999999988887764333
No 122
>KOG1668|consensus
Probab=74.63 E-value=3.4 Score=31.91 Aligned_cols=58 Identities=16% Similarity=0.202 Sum_probs=42.1
Q ss_pred HHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccc
Q psy15093 82 MSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAF 151 (179)
Q Consensus 82 ~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~ 151 (179)
...++.++.+|. +..|+.|.+++-+|+.++..+. .-+....+++..+|+.++.+.-..
T Consensus 10 ~~glk~l~~sLA--~ks~~~g~~~s~edv~vf~al~----------~ep~s~~~v~~~~w~~~l~a~~~~ 67 (231)
T KOG1668|consen 10 PAGLKKLNKSLA--EKSYIEGYQLSKEDVVVFAALG----------VEPQSARLVNAERWYSKLEALLRL 67 (231)
T ss_pred hhhhhhhhHhhh--cccCCCCCCcccccceeehhcc----------cCcchhhhhHHHHHHHHHHHHHHH
Confidence 467888999999 7789999999999999885331 011124678888888777664433
No 123
>PRK11200 grxA glutaredoxin 1; Provisional
Probab=73.64 E-value=6.3 Score=25.01 Aligned_cols=28 Identities=11% Similarity=0.101 Sum_probs=25.1
Q ss_pred CCCCeEEeCCeeeecHHHHHHHHHhhCC
Q psy15093 16 TPPPILIDNGLAVLENEKIERHIMKNVP 43 (179)
Q Consensus 16 g~vPvL~~~g~~l~ES~aI~~YL~~~~p 43 (179)
-.||++..||..+.....|.+++.+.+.
T Consensus 57 ~~vP~ifi~g~~igg~~~~~~~~~~~~~ 84 (85)
T PRK11200 57 ETVPQIFVDQKHIGGCTDFEAYVKENLG 84 (85)
T ss_pred CcCCEEEECCEEEcCHHHHHHHHHHhcc
Confidence 5899999999999999999999988763
No 124
>TIGR02681 phage_pRha phage regulatory protein, rha family. Members of this protein family are found in temperate phage and bacterial prophage regions. Members include the product of the rha gene of the lambdoid phage phi-80, a late operon gene. The presence of this gene interferes with infection of bacterial strains that lack integration host factor (IHF), which regulates the rha gene. It is suggested that pRha is a phage regulatory protein.
Probab=68.51 E-value=5.8 Score=26.98 Aligned_cols=26 Identities=12% Similarity=0.087 Sum_probs=21.9
Q ss_pred CCeE-EeCCeeeecHHHHHHHHHhhCC
Q psy15093 18 PPIL-IDNGLAVLENEKIERHIMKNVP 43 (179)
Q Consensus 18 vPvL-~~~g~~l~ES~aI~~YL~~~~p 43 (179)
+|.+ ..+|.+++.|..|+++....|.
T Consensus 2 ~~~v~~~~~~~~ttS~~IAe~fgK~H~ 28 (108)
T TIGR02681 2 FPKVFTKRNQVVTDSLTMAQMFGKRHD 28 (108)
T ss_pred CceEEEECCEEEEeHHHHHHHHCcchH
Confidence 4555 6799999999999999998884
No 125
>cd03418 GRX_GRXb_1_3_like Glutaredoxin (GRX) family, GRX bacterial class 1 and 3 (b_1_3)-like subfamily; composed of bacterial GRXs, approximately 10 kDa in size, and proteins containing a GRX or GRX-like domain. GRX is a glutathione (GSH) dependent reductase, catalyzing the disulfide reduction of target proteins such as ribonucleotide reductase. It contains a redox active CXXC motif in a TRX fold and uses a similar dithiol mechanism employed by TRXs for intramolecular disulfide bond reduction of protein substrates. Unlike TRX, GRX has preference for mixed GSH disulfide substrates, in which it uses a monothiol mechanism where only the N-terminal cysteine is required. The flow of reducing equivalents in the GRX system goes from NADPH - GSH reductase - GSH - GRX - protein substrates. By altering the redox state of target proteins, GRX is involved in many cellular functions including DNA synthesis, signal transduction and the defense against oxidative stress. Different classes are known i
Probab=66.52 E-value=13 Score=22.55 Aligned_cols=31 Identities=3% Similarity=-0.079 Sum_probs=22.9
Q ss_pred HhhhCCCC-CCCeEEeCCeeeecHHHHHHHHH
Q psy15093 9 ARTNFEAT-PPPILIDNGLAVLENEKIERHIM 39 (179)
Q Consensus 9 ~~~~nP~g-~vPvL~~~g~~l~ES~aI~~YL~ 39 (179)
+.+..... .||++..+|..+.....+.++-.
T Consensus 42 ~~~~~~~~~~vP~v~i~g~~igg~~~~~~~~~ 73 (75)
T cd03418 42 MINRSGGRRTVPQIFIGDVHIGGCDDLYALER 73 (75)
T ss_pred HHHHhCCCCccCEEEECCEEEeChHHHHHHHh
Confidence 44444444 89999999999998888877643
No 126
>TIGR02181 GRX_bact Glutaredoxin, GrxC family. This family of glutaredoxins includes the E. coli protein GrxC (Grx3) which appears to have a secondary role in reducing ribonucleotide reductase (in the absence of GrxA) possibly indicating a role in the reduction of other protein disulfides.
Probab=63.11 E-value=16 Score=22.53 Aligned_cols=34 Identities=6% Similarity=-0.060 Sum_probs=26.0
Q ss_pred hhHhhhCCCCCCCeEEeCCeeeecHHHHHHHHHh
Q psy15093 7 KKARTNFEATPPPILIDNGLAVLENEKIERHIMK 40 (179)
Q Consensus 7 ~~~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~ 40 (179)
+++.+.+....||++..+|..+.....+..+-++
T Consensus 39 ~~~~~~~g~~~vP~i~i~g~~igg~~~~~~~~~~ 72 (79)
T TIGR02181 39 DEMMQRSGRRTVPQIFIGDVHVGGCDDLYALDRE 72 (79)
T ss_pred HHHHHHhCCCCcCEEEECCEEEcChHHHHHHHHc
Confidence 4456667788999999999988888777666554
No 127
>cd03419 GRX_GRXh_1_2_like Glutaredoxin (GRX) family, GRX human class 1 and 2 (h_1_2)-like subfamily; composed of proteins similar to human GRXs, approximately 10 kDa in size, and proteins containing a GRX or GRX-like domain. GRX is a glutathione (GSH) dependent reductase, catalyzing the disulfide reduction of target proteins such as ribonucleotide reductase. It contains a redox active CXXC motif in a TRX fold and uses a similar dithiol mechanism employed by TRXs for intramolecular disulfide bond reduction of protein substrates. Unlike TRX, GRX has preference for mixed GSH disulfide substrates, in which it uses a monothiol mechanism where only the N-terminal cysteine is required. The flow of reducing equivalents in the GRX system goes from NADPH - GSH reductase - GSH - GRX - protein substrates. By altering the redox state of target proteins, GRX is involved in many cellular functions including DNA synthesis, signal transduction and the defense against oxidative stress. Different classes
Probab=58.83 E-value=23 Score=21.78 Aligned_cols=32 Identities=6% Similarity=-0.074 Sum_probs=26.1
Q ss_pred HhhhCCCCCCCeEEeCCeeeecHHHHHHHHHh
Q psy15093 9 ARTNFEATPPPILIDNGLAVLENEKIERHIMK 40 (179)
Q Consensus 9 ~~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~ 40 (179)
+.+++..-.+|++..+|..+..+..|.++..+
T Consensus 45 ~~~~~g~~~~P~v~~~g~~igg~~~~~~~~~~ 76 (82)
T cd03419 45 LQELTGQRTVPNVFIGGKFIGGCDDLMALHKS 76 (82)
T ss_pred HHHHhCCCCCCeEEECCEEEcCHHHHHHHHHc
Confidence 44556667899999999999999999888764
No 128
>TIGR01764 excise DNA binding domain, excisionase family. An excisionase, or Xis protein, is a small protein that binds and promotes excisive recombination; it is not enzymatically active. This model represents a number of putative excisionases and related proteins from temperate phage, plasmids, and transposons, as well as DNA binding domains of other proteins, such as a DNA modification methylase. This model identifies mostly small proteins and N-terminal regions of large proteins, but some proteins appear to have two copies. This domain appears similar, in both sequence and predicted secondary structure (PSIPRED) to the MerR family of transcriptional regulators (pfam00376).
Probab=50.80 E-value=32 Score=18.64 Aligned_cols=25 Identities=8% Similarity=0.034 Sum_probs=21.4
Q ss_pred CCCCCeEEeCCeeeecHHHHHHHHH
Q psy15093 15 ATPPPILIDNGLAVLENEKIERHIM 39 (179)
Q Consensus 15 ~g~vPvL~~~g~~l~ES~aI~~YL~ 39 (179)
.|.+|....++..++....|.+|++
T Consensus 24 ~g~i~~~~~g~~~~~~~~~l~~~~~ 48 (49)
T TIGR01764 24 EGELPAYRVGRHYRIPREDVDEYLE 48 (49)
T ss_pred cCCCCeEEeCCeEEEeHHHHHHHHh
Confidence 5889988668889999999999886
No 129
>TIGR02180 GRX_euk Glutaredoxin. This model represents eukaryotic glutaredoxins and includes sequences from fungi, plants and metazoans as well as viruses.
Probab=47.98 E-value=44 Score=20.47 Aligned_cols=31 Identities=10% Similarity=-0.046 Sum_probs=21.5
Q ss_pred hhhCCCCCCCeEEeCCeeeecHHHHHHHHHh
Q psy15093 10 RTNFEATPPPILIDNGLAVLENEKIERHIMK 40 (179)
Q Consensus 10 ~~~nP~g~vPvL~~~g~~l~ES~aI~~YL~~ 40 (179)
.+......+|.+..+|..+..+..+.++..+
T Consensus 47 ~~~~g~~~vP~v~i~g~~igg~~~~~~~~~~ 77 (84)
T TIGR02180 47 EEITGQRTVPNIFINGKFIGGCSDLLALYKS 77 (84)
T ss_pred HHHhCCCCCCeEEECCEEEcCHHHHHHHHHc
Confidence 3445556788887788888887777766653
No 130
>PRK10329 glutaredoxin-like protein; Provisional
Probab=46.46 E-value=27 Score=22.13 Aligned_cols=27 Identities=19% Similarity=0.255 Sum_probs=17.5
Q ss_pred hhhCCCCCCCeEEeCCeee--ecHHHHHH
Q psy15093 10 RTNFEATPPPILIDNGLAV--LENEKIER 36 (179)
Q Consensus 10 ~~~nP~g~vPvL~~~g~~l--~ES~aI~~ 36 (179)
+..++..+||+++.+|..+ ++...|-+
T Consensus 43 ~~~~g~~~vPvv~i~~~~~~Gf~~~~l~~ 71 (81)
T PRK10329 43 LRAQGFRQLPVVIAGDLSWSGFRPDMINR 71 (81)
T ss_pred HHHcCCCCcCEEEECCEEEecCCHHHHHH
Confidence 3456889999998877544 34444433
No 131
>PF12728 HTH_17: Helix-turn-helix domain
Probab=36.89 E-value=78 Score=17.64 Aligned_cols=28 Identities=7% Similarity=0.070 Sum_probs=23.3
Q ss_pred CCCCCCeEEeCCeeeecHHHHHHHHHhh
Q psy15093 14 EATPPPILIDNGLAVLENEKIERHIMKN 41 (179)
Q Consensus 14 P~g~vPvL~~~g~~l~ES~aI~~YL~~~ 41 (179)
-.|.+|....++...+.-..|.+|++++
T Consensus 23 ~~g~i~~~~~g~~~~~~~~~l~~~~~~~ 50 (51)
T PF12728_consen 23 RQGKIPPFKIGRKWRIPKSDLDRWLERR 50 (51)
T ss_pred HcCCCCeEEeCCEEEEeHHHHHHHHHhC
Confidence 3689998887888999999999999763
No 132
>PF00462 Glutaredoxin: Glutaredoxin; InterPro: IPR002109 Glutaredoxins [, , ], also known as thioltransferases (disulphide reductases, are small proteins of approximately one hundred amino-acid residues which utilise glutathione and NADPH as cofactors. Oxidized glutathione is regenerated by glutathione reductase. Together these components compose the glutathione system []. Glutaredoxin functions as an electron carrier in the glutathione-dependent synthesis of deoxyribonucleotides by the enzyme ribonucleotide reductase. Like thioredoxin, which functions in a similar way, glutaredoxin possesses an active centre disulphide bond []. It exists in either a reduced or an oxidized form where the two cysteine residues are linked in an intramolecular disulphide bond. Glutaredoxin has been sequenced in a variety of species. On the basis of extensive sequence similarity, it has been proposed [] that Vaccinia virus protein O2L is most probably a glutaredoxin. Finally, it must be noted that Bacteriophage T4 thioredoxin seems also to be evolutionary related. In position 5 of the pattern T4 thioredoxin has Val instead of Pro. This entry represents Glutaredoxin.; GO: 0009055 electron carrier activity, 0015035 protein disulfide oxidoreductase activity, 0045454 cell redox homeostasis; PDB: 1QFN_A 1GRX_A 1EGO_A 1EGR_A 3RHC_A 3RHB_A 3IPZ_A 1NHO_A 3GX8_A 3D5J_A ....
Probab=36.18 E-value=38 Score=19.57 Aligned_cols=22 Identities=9% Similarity=0.117 Sum_probs=16.2
Q ss_pred hhHhhhCCCCCCCeEEeCCeee
Q psy15093 7 KKARTNFEATPPPILIDNGLAV 28 (179)
Q Consensus 7 ~~~~~~nP~g~vPvL~~~g~~l 28 (179)
+++.+.+...++|++..||..|
T Consensus 39 ~~l~~~~g~~~~P~v~i~g~~I 60 (60)
T PF00462_consen 39 EELKELSGVRTVPQVFIDGKFI 60 (60)
T ss_dssp HHHHHHHSSSSSSEEEETTEEE
T ss_pred HHHHHHcCCCccCEEEECCEEC
Confidence 4455566778999998888754
No 133
>COG3109 ProQ Activator of osmoprotectant transporter ProP [Signal transduction mechanisms]
Probab=36.13 E-value=1.4e+02 Score=22.30 Aligned_cols=67 Identities=18% Similarity=0.228 Sum_probs=34.6
Q ss_pred eeecHHHHHHHHHhhCCCCCCCCCCc-hHHHHHHHHHHHHHHHHHcCCChHHHHHHHHHHHHHHHHHccCCCceecC
Q psy15093 27 AVLENEKIERHIMKNVPGGHNLFVQD-KEVATLIENLYSKLKLMLLKKDDVSINALMSHLRKINDHLGRKETRFLTG 102 (179)
Q Consensus 27 ~l~ES~aI~~YL~~~~p~~~~L~p~~-~~~~~~~~~~~~~~~~~~~~~~~~~~~~l~~~l~~le~~L~~~~~~fl~G 102 (179)
.|..|-.++-||.++||..-.+-+.. |-...+..++... +.....-...++..+|...-. +-.|+-|
T Consensus 6 kl~~~kEvIa~Lae~FPlcF~~egeAKPLKiGifQDl~e~----lq~d~~vSktQLrqAlr~yts-----~wRYl~g 73 (208)
T COG3109 6 KLNNSKEVIAYLAERFPLCFSLEGEAKPLKIGIFQDLAER----LQDDENVSKTQLRQALRLYTS-----SWRYLYG 73 (208)
T ss_pred hccchHHHHHHHHHhCccccccCccccchhhhHHHHHHHH----HhccccccHHHHHHHHHHHhc-----ccceeee
Confidence 46778889999999998542232221 2223333333322 222111234567766654332 3456655
No 134
>PF04564 U-box: U-box domain; InterPro: IPR003613 Quality control of intracellular proteins is essential for cellular homeostasis. Molecular chaperones recognise and contribute to the refolding of misfolded or unfolded proteins, whereas the ubiquitin-proteasome system mediates the degradation of such abnormal proteins. Ubiquitin-protein ligases (E3s) determine the substrate specificity for ubiquitylation and have been classified into HECT and RING-finger families. More recently, however, U-box proteins, which contain a domain (the U box) of about 70 amino acids that is conserved from yeast to humans, have been identified as a new type of E3 []. Members of the U-box family of proteins constitute a class of ubiquitin-protein ligases (E3s) distinct from the HECT-type and RING finger-containing E3 families []. Using yeast two-hybrid technology, all mammalian U-box proteins have been reported to interact with molecular chaperones or co-chaperones, including Hsp90, Hsp70, DnaJc7, EKN1, CRN, and VCP. This suggests that the function of U box-type E3s is to mediate the degradation of unfolded or misfolded proteins in conjunction with molecular chaperones as receptors that recognise such abnormal proteins [, ]. Unlike the RING finger domain, IPR001841 from INTERPRO, that is stabilised by Zn2+ ions coordinated by the cysteines and a histidine, the U-box scaffold is probably stabilised by a system of salt-bridges and hydrogen bonds. The charged and polar residues that participate in this network of bonds are more strongly conserved in the U-box proteins than in classic RING fingers, which supports their role in maintaining the stability of the U box. Thus, the U box appears to have evolved from a RING finger domain by appropriation of a new set of residues required to stabilise its structure, concomitant with the loss of the original, metal-chelating residues [].; GO: 0004842 ubiquitin-protein ligase activity, 0016567 protein ubiquitination, 0000151 ubiquitin ligase complex; PDB: 1T1H_A 2C2L_D 2C2V_V 1WGM_A 2KR4_A 3L1Z_B 3L1X_A 2KRE_A 3M63_A 2QIZ_A ....
Probab=35.55 E-value=35 Score=21.09 Aligned_cols=25 Identities=28% Similarity=0.517 Sum_probs=21.0
Q ss_pred CCCeEEeCCeeeecHHHHHHHHHhhC
Q psy15093 17 PPPILIDNGLAVLENEKIERHIMKNV 42 (179)
Q Consensus 17 ~vPvL~~~g~~l~ES~aI~~YL~~~~ 42 (179)
+=||+..+| ..+|=.+|.+||.+..
T Consensus 15 ~dPVi~~~G-~tyer~~I~~~l~~~~ 39 (73)
T PF04564_consen 15 RDPVILPSG-HTYERSAIERWLEQNG 39 (73)
T ss_dssp SSEEEETTS-EEEEHHHHHHHHCTTS
T ss_pred hCceeCCcC-CEEcHHHHHHHHHcCC
Confidence 458988888 8899999999999844
No 135
>cd03028 GRX_PICOT_like Glutaredoxin (GRX) family, PKC-interacting cousin of TRX (PICOT)-like subfamily; composed of PICOT and GRX-PICOT-like proteins. The non-PICOT members of this family contain only the GRX-like domain, whereas PICOT contains an N-terminal TRX-like domain followed by one to three GRX-like domains. It is interesting to note that PICOT from plants contain three repeats of the GRX-like domain, metazoan proteins (except for insect) have two repeats, while fungal sequences contain only one copy of the domain. PICOT is a protein that interacts with protein kinase C (PKC) theta, a calcium independent PKC isoform selectively expressed in skeletal muscle and T lymphocytes. PICOT inhibits the activation of c-Jun N-terminal kinase and the transcription factors, AP-1 and NF-kB, induced by PKC theta or T-cell activating stimuli. Both GRX and TRX domains of PICOT are required for its activity. Characterized non-PICOT members of this family include CXIP1, a CAX-interacting protein
Probab=31.30 E-value=1.2e+02 Score=19.38 Aligned_cols=29 Identities=17% Similarity=0.035 Sum_probs=18.1
Q ss_pred hhhCCCCCCCeEEeCCeeeecHHHHHHHH
Q psy15093 10 RTNFEATPPPILIDNGLAVLENEKIERHI 38 (179)
Q Consensus 10 ~~~nP~g~vPvL~~~g~~l~ES~aI~~YL 38 (179)
.+.+-..+||++..+|..+.....+.+..
T Consensus 56 ~~~~g~~tvP~vfi~g~~iGG~~~l~~l~ 84 (90)
T cd03028 56 KEYSNWPTFPQLYVNGELVGGCDIVKEMH 84 (90)
T ss_pred HHHhCCCCCCEEEECCEEEeCHHHHHHHH
Confidence 34455567777777777776666665543
No 136
>COG0695 GrxC Glutaredoxin and related proteins [Posttranslational modification, protein turnover, chaperones]
Probab=28.02 E-value=1.1e+02 Score=19.21 Aligned_cols=26 Identities=12% Similarity=0.031 Sum_probs=17.7
Q ss_pred hHhh-hCCCCCCCeEEeCCeeeecHHH
Q psy15093 8 KART-NFEATPPPILIDNGLAVLENEK 33 (179)
Q Consensus 8 ~~~~-~nP~g~vPvL~~~g~~l~ES~a 33 (179)
++.. .++.-+||++..||..+.-+..
T Consensus 43 ~~~~~~~g~~tvP~I~i~~~~igg~~d 69 (80)
T COG0695 43 EMVKRGKGQRTVPQIFIGGKHVGGCDD 69 (80)
T ss_pred HHHHHhCCCCCcCEEEECCEEEeCccc
Confidence 3444 4589999999988866654333
No 137
>COG4545 Glutaredoxin-related protein [Posttranslational modification, protein turnover, chaperones]
Probab=23.63 E-value=88 Score=19.97 Aligned_cols=48 Identities=19% Similarity=0.315 Sum_probs=29.6
Q ss_pred hhhhhHhhHHHHHHHhhhcccCcccccccHHHHHHHHHHhccccccccCC
Q psy15093 107 CFDCELMPRLQHIRVAGSYFMQFEIPTYMKHLWHYMKHMYELEAFTQSCP 156 (179)
Q Consensus 107 lAD~~~~~~l~~~~~~~~~~~~~~~~~~~p~l~~w~~~~~~~p~~~~~~~ 156 (179)
-.||+ |.+..+....-.+..+++-.+.+++.+++.-=-++|.|.++..
T Consensus 12 Cpdca--~a~eyl~rl~v~yd~VeIt~Sm~NlKrFl~lRDs~~~Fd~vk~ 59 (85)
T COG4545 12 CPDCA--PAVEYLERLNVDYDFVEITESMANLKRFLHLRDSRPEFDEVKS 59 (85)
T ss_pred CcchH--HHHHHHHHcCCCceeeehhhhhhhHHHHHhhhccchhHHhhhh
Confidence 34554 3344444433333334555788999999976667888876643
No 138
>PHA03050 glutaredoxin; Provisional
Probab=23.42 E-value=1.6e+02 Score=19.69 Aligned_cols=29 Identities=3% Similarity=-0.112 Sum_probs=18.9
Q ss_pred hHhhhCCCCCCCeEEeCCeeeecHHHHHH
Q psy15093 8 KARTNFEATPPPILIDNGLAVLENEKIER 36 (179)
Q Consensus 8 ~~~~~nP~g~vPvL~~~g~~l~ES~aI~~ 36 (179)
++.+++-..+||.+..+|..+--...+..
T Consensus 60 ~l~~~tG~~tVP~IfI~g~~iGG~ddl~~ 88 (108)
T PHA03050 60 YFEQITGGRTVPRIFFGKTSIGGYSDLLE 88 (108)
T ss_pred HHHHHcCCCCcCEEEECCEEEeChHHHHH
Confidence 45556666678888777777665555443
No 139
>cd08200 catalase_peroxidase_2 C-terminal non-catalytic domain of catalase-peroxidases. This is a subgroup of heme-dependent peroxidases of the plant superfamily that share a heme prosthetic group and catalyze a multistep oxidative reaction involving hydrogen peroxide as the electron acceptor. Catalase-peroxidases can exhibit both catalase and broad-spectrum peroxidase activities depending on the steady-state concentration of hydrogen peroxide. These enzymes are found in many archaeal and bacterial organisms where they neutralize potentially lethal hydrogen peroxide molecules generated during photosynthesis or stationary phase. Along with related intracellular fungal and plant peroxidases, catalase-peroxidases belong to plant peroxidase superfamily. Unlike the eukaryotic enzymes, they are typically comprised of two homologous domains that probably arose via a single gene duplication event. The heme binding motif is present only in the N-terminal domain; the function of the C-terminal do
Probab=23.16 E-value=1.9e+02 Score=23.52 Aligned_cols=43 Identities=12% Similarity=0.027 Sum_probs=26.1
Q ss_pred HHHHHHHHHHHHHccCCCceecCCCCChhhhhHhhHHHHHHHh
Q psy15093 80 ALMSHLRKINDHLGRKETRFLTGDTMCCFDCELMPRLQHIRVA 122 (179)
Q Consensus 80 ~l~~~l~~le~~L~~~~~~fl~Gd~~TlAD~~~~~~l~~~~~~ 122 (179)
+|.+++..||..-++.+..--.|.++|+||+.++.-...++.+
T Consensus 73 ~L~~~~~~Le~ik~~~~~~~~~~~~vS~ADLivLaG~vAiE~a 115 (297)
T cd08200 73 ELAKVLAVLEGIQKEFNESQSGGKKVSLADLIVLGGCAAVEKA 115 (297)
T ss_pred HHHHHHHHHHHHHHHhcccccCCccccHHHHHHHHhHHHHHHH
Confidence 4777777777754421111123457999998877665555544
No 140
>TIGR02194 GlrX_NrdH Glutaredoxin-like protein NrdH. NrdH-redoxin is a representative of a class of small redox proteins that contain a conserved CXXC motif and are characterized by a glutaredoxin-like amino acid sequence and thioredoxin-like activity profile. Unlike other the glutaredoxins to which it is most closely related, NrdH aparrently does not interact with glutathione/glutathione reductase, but rather with thioredoxin reductase to catalyze the reduction of ribonucleotide reductase.
Probab=22.73 E-value=72 Score=19.24 Aligned_cols=18 Identities=11% Similarity=0.165 Sum_probs=12.2
Q ss_pred HhhhCCCCCCCeEEeCCe
Q psy15093 9 ARTNFEATPPPILIDNGL 26 (179)
Q Consensus 9 ~~~~nP~g~vPvL~~~g~ 26 (179)
.++.++...||+++.+|.
T Consensus 40 ~~~~~g~~~vP~v~~~g~ 57 (72)
T TIGR02194 40 YVKAQGFRQVPVIVADGD 57 (72)
T ss_pred HHHHcCCcccCEEEECCC
Confidence 334456678999977553
No 141
>PF12622 NpwBP: mRNA biogenesis factor
Probab=21.63 E-value=46 Score=19.11 Aligned_cols=11 Identities=18% Similarity=-0.040 Sum_probs=8.2
Q ss_pred hhCCCCCCCeE
Q psy15093 11 TNFEATPPPIL 21 (179)
Q Consensus 11 ~~nP~g~vPvL 21 (179)
..||.|++|--
T Consensus 10 ~~NP~G~~P~g 20 (48)
T PF12622_consen 10 ELNPLGKPPPG 20 (48)
T ss_pred ccCCCCCCCCC
Confidence 36899998853
No 142
>TIGR02189 GlrX-like_plant Glutaredoxin-like family. This family of glutaredoxin-like proteins is aparrently limited to plants. Multiple isoforms are found in A. thaliana and O.sativa.
Probab=20.86 E-value=2.3e+02 Score=18.48 Aligned_cols=28 Identities=14% Similarity=-0.028 Sum_probs=17.4
Q ss_pred HhhhCCCCCCCeEEeCCeeeecHHHHHH
Q psy15093 9 ARTNFEATPPPILIDNGLAVLENEKIER 36 (179)
Q Consensus 9 ~~~~nP~g~vPvL~~~g~~l~ES~aI~~ 36 (179)
+.+.+...+||++..+|..+.-...+..
T Consensus 53 l~~~tg~~tvP~Vfi~g~~iGG~ddl~~ 80 (99)
T TIGR02189 53 LSRLGCSPAVPAVFVGGKLVGGLENVMA 80 (99)
T ss_pred HHHhcCCCCcCeEEECCEEEcCHHHHHH
Confidence 3444566778888777766665555444
No 143
>TIGR03412 iscX_yfhJ FeS assembly protein IscX. Members of this protein family are YfhJ, a protein of the ISC system for iron-sulfur cluster assembly. Other genes in the system include iscSUA, hscBA, and fdx.
Probab=20.50 E-value=1e+02 Score=18.83 Aligned_cols=16 Identities=13% Similarity=0.308 Sum_probs=14.3
Q ss_pred ecHHHHHHHHHhhCCC
Q psy15093 29 LENEKIERHIMKNVPG 44 (179)
Q Consensus 29 ~ES~aI~~YL~~~~p~ 44 (179)
.+|..|+.-|.++||+
T Consensus 3 ~D~~eIA~~L~e~~pd 18 (63)
T TIGR03412 3 TDSQEIAIALAEAHPD 18 (63)
T ss_pred cCHHHHHHHHHHHCCC
Confidence 5889999999999985
No 144
>TIGR00365 monothiol glutaredoxin, Grx4 family. The gene for the member of this glutaredoxin family in E. coli, originally designated ydhD, is now designated grxD. Its protein, Grx4, is a monothiol glutaredoxin similar to Grx5 of yeast, which is involved in iron-sulfur cluster formation.
Probab=20.15 E-value=2.5e+02 Score=18.26 Aligned_cols=28 Identities=18% Similarity=0.000 Sum_probs=17.7
Q ss_pred hhhCCCCCCCeEEeCCeeeecHHHHHHH
Q psy15093 10 RTNFEATPPPILIDNGLAVLENEKIERH 37 (179)
Q Consensus 10 ~~~nP~g~vPvL~~~g~~l~ES~aI~~Y 37 (179)
.+++...+||.+..+|..+.-...+.+.
T Consensus 60 ~~~tg~~tvP~vfi~g~~iGG~ddl~~l 87 (97)
T TIGR00365 60 KEYSNWPTIPQLYVKGEFVGGCDIIMEM 87 (97)
T ss_pred HHHhCCCCCCEEEECCEEEeChHHHHHH
Confidence 3455566788887777766665555443
Done!