BLASTP 2.2.26 [Sep-21-2011]
Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer,
Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997),
"Gapped BLAST and PSI-BLAST: a new generation of protein database search
programs", Nucleic Acids Res. 25:3389-3402.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= 026166
(242 letters)
Database: swissprot
539,616 sequences; 191,569,459 total letters
Searching..................................................done
>sp|Q3L181|PERR_RAUSE Perakine reductase OS=Rauvolfia serpentina GN=PR PE=1 SV=1
Length = 337
Score = 344 bits (883), Expect = 3e-94, Method: Compositional matrix adjust.
Identities = 163/228 (71%), Positives = 192/228 (84%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
+PRVKLG+QGLEVS+LGFGC GLSG YN L E G ++IKE FN GIT FDTSD+YG +
Sbjct: 1 MPRVKLGTQGLEVSKLGFGCMGLSGDYNDALPEEQGIAVIKEAFNCGITFFDTSDIYGEN 60
Query: 69 HDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYI 128
NE ++GKALKQLPR+KIQ+ TKFG + + KG+P+YVR CCEASLKRLDVDYI
Sbjct: 61 GSNEELLGKALKQLPREKIQVGTKFGIHEIGFSGVKAKGTPDYVRSCCEASLKRLDVDYI 120
Query: 129 DLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYS 188
DL+Y HR+DT+V IE TMGELKKLVEEGKIKY+GLSEAS DTIRRAHAVHP+TA+Q+EYS
Sbjct: 121 DLFYIHRIDTTVPIEITMGELKKLVEEGKIKYVGLSEASPDTIRRAHAVHPVTALQIEYS 180
Query: 189 LWTREIEDDIIPLCRELGIGIVAYSPLGRGFFAGKAVVESLPSESILV 236
LWTR+IED+I+PLCR+LGIGIV YSP+GRG FAGKA+ ESLP S+L
Sbjct: 181 LWTRDIEDEIVPLCRQLGIGIVPYSPIGRGLFAGKAIKESLPENSVLT 228
>sp|C6TBN2|AKR1_SOYBN Probable aldo-keto reductase 1 OS=Glycine max GN=AKR1 PE=2 SV=1
Length = 346
Score = 342 bits (878), Expect = 1e-93, Method: Compositional matrix adjust.
Identities = 162/230 (70%), Positives = 193/230 (83%), Gaps = 1/230 (0%)
Query: 6 QVHVPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVY 65
Q + VKLG+QG EVS+LGFGC GL+G YN PL + G S+IK F++GIT FDT+DVY
Sbjct: 3 QAQIQPVKLGTQGFEVSKLGFGCMGLTGAYNDPLQEQDGISVIKYAFSKGITFFDTADVY 62
Query: 66 GVDHDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDV 125
G + NE++VGKALKQLPR+KIQ+ATKFG + ++GSPEYVR CCE LKRLDV
Sbjct: 63 GANA-NELLVGKALKQLPREKIQIATKFGIASRGFPDMKIEGSPEYVRSCCETGLKRLDV 121
Query: 126 DYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQM 185
+YIDLYYQHRVDTSV IE+T+GELKKLVEEGK+KYIGLSEAS DTIRRAHA+HPITAVQ+
Sbjct: 122 EYIDLYYQHRVDTSVPIEETVGELKKLVEEGKVKYIGLSEASPDTIRRAHAIHPITAVQI 181
Query: 186 EYSLWTREIEDDIIPLCRELGIGIVAYSPLGRGFFAGKAVVESLPSESIL 235
E+SLWTR+IE++I+PLCRELGIGIV YSPLGRGFF GK VVE++P+ S L
Sbjct: 182 EWSLWTRDIEEEIVPLCRELGIGIVPYSPLGRGFFGGKGVVENVPTNSSL 231
>sp|Q93ZN2|ALKR4_ARATH Probable aldo-keto reductase 4 OS=Arabidopsis thaliana GN=At1g60710
PE=1 SV=1
Length = 345
Score = 290 bits (741), Expect = 9e-78, Method: Compositional matrix adjust.
Identities = 149/222 (67%), Positives = 173/222 (77%), Gaps = 3/222 (1%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
V R+KLGSQGLEVS G GC GLS Y P ++I + G+TL DTSD+YG +
Sbjct: 7 VRRMKLGSQGLEVSAQGLGCMGLSAFYGAPKPENEAIALIHHAIHSGVTLLDTSDIYGPE 66
Query: 69 HDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYI 128
NE+++GKALK R+K++LATKFG +G V+G PEYVR CEASLKRLD+ I
Sbjct: 67 -TNEVLLGKALKDGVREKVELATKFGISYAEGKR-EVRGDPEYVRAACEASLKRLDIACI 124
Query: 129 DLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYS 188
DLYYQHRVDT V IE TMGELKKLVEEGKIKYIGLSEASA TIRRAHAVHPITAVQ+E+S
Sbjct: 125 DLYYQHRVDTRVPIEITMGELKKLVEEGKIKYIGLSEASASTIRRAHAVHPITAVQIEWS 184
Query: 189 LWTREIEDDIIPLCRELGIGIVAYSPLGRGFFA-GKAVVESL 229
LWTR++E++IIP CRELGIGIVAYSPLGRGFFA G +VE+L
Sbjct: 185 LWTRDVEEEIIPTCRELGIGIVAYSPLGRGFFASGPKLVENL 226
>sp|A2XRZ0|AKR2_ORYSI Probable aldo-keto reductase 2 OS=Oryza sativa subsp. indica
GN=OsI_15387 PE=3 SV=1
Length = 351
Score = 288 bits (737), Expect = 2e-77, Method: Compositional matrix adjust.
Identities = 148/222 (66%), Positives = 170/222 (76%), Gaps = 3/222 (1%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
V R+KLGSQGLEVS G GC G+S Y P ++I G+TL DTSD+YG
Sbjct: 11 VRRMKLGSQGLEVSAQGLGCMGMSAFYGPPKPEPDMVALIHHAVAAGVTLLDTSDIYG-P 69
Query: 69 HDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYI 128
H NE+++GKAL+ RDK++LATKFG DG GV+G P YVR CE SL+RL VD I
Sbjct: 70 HTNELLLGKALQGGVRDKVELATKFGIAFEDGKR-GVRGDPAYVRAACEGSLRRLGVDSI 128
Query: 129 DLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYS 188
DLYYQHRVD V IE T+GELKKLVEEGKIKYIGLSEASA TIRRAHAVHPITAVQ+E+S
Sbjct: 129 DLYYQHRVDKKVPIEVTIGELKKLVEEGKIKYIGLSEASASTIRRAHAVHPITAVQLEWS 188
Query: 189 LWTREIEDDIIPLCRELGIGIVAYSPLGRGFF-AGKAVVESL 229
LW+R++E+DIIP CRELGIGIVAYSPLGRGFF AG +VESL
Sbjct: 189 LWSRDVEEDIIPTCRELGIGIVAYSPLGRGFFSAGAKLVESL 230
>sp|Q84M96|ALKR2_ARATH Probable aldo-keto reductase 2 OS=Arabidopsis thaliana GN=AGD2 PE=1
SV=1
Length = 346
Score = 288 bits (737), Expect = 3e-77, Method: Compositional matrix adjust.
Identities = 144/225 (64%), Positives = 174/225 (77%), Gaps = 2/225 (0%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
V R+KLGSQGLEVS G GC LS Y P +++ N G+T FDTSD+YG +
Sbjct: 7 VRRMKLGSQGLEVSAQGLGCMALSARYGAPKPETDAIALLHHAINSGVTFFDTSDMYGPE 66
Query: 69 HDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYI 128
NE+++GKALK ++K++LATKFG F+++G V+G PEYVR CEASLKRLD+ I
Sbjct: 67 -TNELLLGKALKDGVKEKVELATKFGFFIVEGEISEVRGDPEYVRAACEASLKRLDIACI 125
Query: 129 DLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYS 188
DLYYQHR+DT V IE TM ELKKLVEEGKIKYIGLSEASA TIRRAHAVHPITAVQ+E+S
Sbjct: 126 DLYYQHRIDTRVPIEITMRELKKLVEEGKIKYIGLSEASASTIRRAHAVHPITAVQIEWS 185
Query: 189 LWTREIEDDIIPLCRELGIGIVAYSPLGRGFF-AGKAVVESLPSE 232
LW+R+ E+DIIP+CRELGIGIVAYSPLGRGF AG + E+L ++
Sbjct: 186 LWSRDAEEDIIPICRELGIGIVAYSPLGRGFLAAGPKLAENLEND 230
>sp|Q7XT99|AKR2_ORYSJ Probable aldo-keto reductase 2 OS=Oryza sativa subsp. japonica
GN=Os04g0338000 PE=2 SV=2
Length = 351
Score = 285 bits (730), Expect = 1e-76, Method: Compositional matrix adjust.
Identities = 147/222 (66%), Positives = 169/222 (76%), Gaps = 3/222 (1%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
V R+KLGSQGLEVS G GC G+S Y P ++I G+TL DTSD+YG
Sbjct: 11 VRRMKLGSQGLEVSAQGLGCMGMSAFYGPPKPEPDMVALIHHAVAAGVTLLDTSDIYG-P 69
Query: 69 HDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYI 128
H NE+++GKAL+ RDK++LATKFG DG V+G P YVR CE SL+RL VD I
Sbjct: 70 HTNELLLGKALQGGVRDKVELATKFGIAFEDGKR-DVRGDPAYVRAACEGSLRRLGVDSI 128
Query: 129 DLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYS 188
DLYYQHRVD V IE T+GELKKLVEEGKIKYIGLSEASA TIRRAHAVHPITAVQ+E+S
Sbjct: 129 DLYYQHRVDKKVPIEVTIGELKKLVEEGKIKYIGLSEASASTIRRAHAVHPITAVQLEWS 188
Query: 189 LWTREIEDDIIPLCRELGIGIVAYSPLGRGFF-AGKAVVESL 229
LW+R++E+DIIP CRELGIGIVAYSPLGRGFF AG +VESL
Sbjct: 189 LWSRDVEEDIIPTCRELGIGIVAYSPLGRGFFSAGAKLVESL 230
>sp|P40691|A115_TOBAC Auxin-induced protein PCNT115 OS=Nicotiana tabacum PE=2 SV=1
Length = 307
Score = 285 bits (728), Expect = 3e-76, Method: Compositional matrix adjust.
Identities = 147/229 (64%), Positives = 171/229 (74%), Gaps = 6/229 (2%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
VPR+KLGSQGLEVS G GC G+S Y P +I N GITL DTSDVYG
Sbjct: 8 VPRIKLGSQGLEVSAQGLGCMGMSAFYGPPKPEPDMIQLIHHAINSGITLLDTSDVYG-P 66
Query: 69 HDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSI----GVKGSPEYVRKCCEASLKRLD 124
H NEI++GKALK R+++ LATKFG + D V G P YVR CEASLKRLD
Sbjct: 67 HTNEILLGKALKGGTRERVVLATKFGIVLGDEKKAEGKRAVHGDPAYVRAACEASLKRLD 126
Query: 125 VDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQ 184
+D IDLYYQHRVDT V IE T+GELKKLVEEGK+KYIGLSEASA TIRRAHAVHPITAVQ
Sbjct: 127 IDCIDLYYQHRVDTRVPIEITVGELKKLVEEGKLKYIGLSEASASTIRRAHAVHPITAVQ 186
Query: 185 MEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRGFF-AGKAVVESLPSE 232
+E+SLW+R++E++IIP CRELGIGIVAYSPLGRGF +G ++E + +E
Sbjct: 187 LEWSLWSRDVEEEIIPTCRELGIGIVAYSPLGRGFLSSGPKLLEDMSNE 235
>sp|F4HPY8|AKR6_ARATH Probable aldo-keto reductase 6 OS=Arabidopsis thaliana GN=At1g60750
PE=3 SV=1
Length = 330
Score = 283 bits (725), Expect = 6e-76, Method: Compositional matrix adjust.
Identities = 139/213 (65%), Positives = 164/213 (76%), Gaps = 1/213 (0%)
Query: 8 HVPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGV 67
V R+KLGSQGLEVS G GC GLS Y P ++++ N G+T DTSD+YG
Sbjct: 7 QVRRMKLGSQGLEVSAQGLGCMGLSDFYGAPTPETNAVALLRHAINAGVTFLDTSDIYGP 66
Query: 68 DHDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDY 127
+ NE+++GKALK RDK++LATKFG + G +G PEYVR CEASLKRL V
Sbjct: 67 E-TNELLLGKALKDGLRDKVELATKFGITASEDGKFGFRGDPEYVRIACEASLKRLGVTC 125
Query: 128 IDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEY 187
IDLYYQHR+DT++ IE T+GELKKLVEEGKIKYIGLSEASA TIRRAHAVHPITAVQ+E+
Sbjct: 126 IDLYYQHRIDTTLPIEITIGELKKLVEEGKIKYIGLSEASASTIRRAHAVHPITAVQIEW 185
Query: 188 SLWTREIEDDIIPLCRELGIGIVAYSPLGRGFF 220
SLW+R++E+DIIP CRELGIGIVAYSPLGRGF
Sbjct: 186 SLWSRDVEEDIIPTCRELGIGIVAYSPLGRGFL 218
>sp|O22707|ALKR3_ARATH Probable aldo-keto reductase 3 OS=Arabidopsis thaliana GN=At1g60690
PE=3 SV=1
Length = 345
Score = 281 bits (720), Expect = 2e-75, Method: Compositional matrix adjust.
Identities = 143/222 (64%), Positives = 171/222 (77%), Gaps = 3/222 (1%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
V R+KLGSQGLEVS G GC GL+G Y ++I + G+T DTSD+YG +
Sbjct: 7 VRRIKLGSQGLEVSAQGLGCMGLTGHYGASKPETEAIALIHHAIHSGVTFLDTSDMYGPE 66
Query: 69 HDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYI 128
NEI++GKALK R+K++LATKFG +G + +KG P YVR CEASLKRLDV I
Sbjct: 67 -TNEILLGKALKDGVREKVELATKFGISYAEG-NREIKGDPAYVRAACEASLKRLDVTCI 124
Query: 129 DLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYS 188
DLYYQHR+DT V IE TMGELKKL+EEGKIKYIGLSEASA TIRRAH VHPITAVQ+E+S
Sbjct: 125 DLYYQHRIDTRVPIEITMGELKKLIEEGKIKYIGLSEASASTIRRAHTVHPITAVQLEWS 184
Query: 189 LWTREIEDDIIPLCRELGIGIVAYSPLGRGFFA-GKAVVESL 229
LWTR++E++I+P CRELGIGIV+YSPLGRGFFA G +VE+L
Sbjct: 185 LWTRDVEEEIVPTCRELGIGIVSYSPLGRGFFASGPKLVENL 226
>sp|P49249|IN22_MAIZE IN2-2 protein OS=Zea mays GN=IN2-2 PE=2 SV=1
Length = 306
Score = 281 bits (719), Expect = 3e-75, Method: Compositional matrix adjust.
Identities = 144/224 (64%), Positives = 167/224 (74%), Gaps = 3/224 (1%)
Query: 7 VHVPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYG 66
V VPR+KLGSQGLEVS G GC G+S Y P +I + G+T DTSDVYG
Sbjct: 6 VSVPRIKLGSQGLEVSAQGLGCMGMSAFYGPPKPESEMIKLIHHAVDAGVTFLDTSDVYG 65
Query: 67 VDHDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVD 126
H NE+++GKAL+ R+K++LATKFG DG + G P YVR CE S KRL VD
Sbjct: 66 -PHTNEVLLGKALQGGVREKVELATKFGVSFADGKR-EIHGDPAYVRTACEGSFKRLGVD 123
Query: 127 YIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQME 186
IDLYYQHR+D V IE T+GELKKLVEEGKIKYIGLSEASA TIRRAHAVHPITAVQ+E
Sbjct: 124 CIDLYYQHRIDKRVPIEVTIGELKKLVEEGKIKYIGLSEASASTIRRAHAVHPITAVQLE 183
Query: 187 YSLWTREIEDDIIPLCRELGIGIVAYSPLGRGFF-AGKAVVESL 229
+SLW+R+ E+DIIP CRELGIGIVAYSPLGRGFF +G +V+SL
Sbjct: 184 WSLWSRDAEEDIIPTCRELGIGIVAYSPLGRGFFSSGAKLVDSL 227
>sp|Q9ASZ9|ALKR5_ARATH Probable aldo-keto reductase 5 OS=Arabidopsis thaliana GN=At1g60730
PE=2 SV=1
Length = 345
Score = 278 bits (712), Expect = 2e-74, Method: Compositional matrix adjust.
Identities = 141/227 (62%), Positives = 171/227 (75%), Gaps = 3/227 (1%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
V R+KLGSQGLEVS G GC GLS Y P ++I + G+T DTSD+YG +
Sbjct: 7 VRRIKLGSQGLEVSAQGLGCMGLSAFYGTPKPETEAIALIHHAIHSGVTFLDTSDIYGPE 66
Query: 69 HDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYI 128
NE+++ KALK R+K++LATK+G +G + KG P YVR CEASL R+DV I
Sbjct: 67 -TNELLLSKALKDGVREKVELATKYGIRYAEG-KVEFKGDPAYVRAACEASLMRVDVACI 124
Query: 129 DLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYS 188
DLYYQHR+DT V IE T+GELKKLVEEGKIKYIGLSEASA TIRRAHAVHPITA+Q+E+S
Sbjct: 125 DLYYQHRIDTRVPIEITIGELKKLVEEGKIKYIGLSEASASTIRRAHAVHPITALQIEWS 184
Query: 189 LWTREIEDDIIPLCRELGIGIVAYSPLGRGFFA-GKAVVESLPSESI 234
LW+R++E+DIIP CRELGIGIVAYSPLGRGFFA G +VE+L + +
Sbjct: 185 LWSRDVEEDIIPTCRELGIGIVAYSPLGRGFFASGPKLVENLDNNDV 231
>sp|Q0JE32|AKR1_ORYSJ Probable aldo-keto reductase 1 OS=Oryza sativa subsp. japonica
GN=Os04g0337500 PE=2 SV=1
Length = 350
Score = 277 bits (708), Expect = 6e-74, Method: Compositional matrix adjust.
Identities = 139/223 (62%), Positives = 170/223 (76%), Gaps = 4/223 (1%)
Query: 10 PRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDH 69
PRVKLGSQG+EVS G GC G+ + P ++I+ G+T FDTSD+YG H
Sbjct: 12 PRVKLGSQGMEVSAQGLGCMGMCPAFEPPKPEADMVALIRHAIAAGVTFFDTSDLYG-PH 70
Query: 70 DNEIMVGKALKQLP-RDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYI 128
NE+++GKAL+ RD+++LATKFG F G G++G P YVR CE SL+RL VD I
Sbjct: 71 TNEVLLGKALQGGGVRDRVELATKFGKFFAGG-KPGIRGDPAYVRAACEGSLRRLGVDCI 129
Query: 129 DLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYS 188
DLYYQHRVD V IE T+GELKKLVEEGKI+YIGL EASA TIRRAHAVHPITAVQ+E+S
Sbjct: 130 DLYYQHRVDKKVPIEVTIGELKKLVEEGKIRYIGLCEASASTIRRAHAVHPITAVQLEWS 189
Query: 189 LWTREIEDDIIPLCRELGIGIVAYSPLGRGFF-AGKAVVESLP 230
LW+R++E+DI+P CRELGIGIVAYSPLG+GFF +G +V+SLP
Sbjct: 190 LWSRDVEEDIVPTCRELGIGIVAYSPLGKGFFSSGAKLVDSLP 232
>sp|B8ASB2|AKR1_ORYSI Probable aldo-keto reductase 1 OS=Oryza sativa subsp. indica
GN=OsI_15385 PE=3 SV=2
Length = 350
Score = 277 bits (708), Expect = 6e-74, Method: Compositional matrix adjust.
Identities = 139/223 (62%), Positives = 170/223 (76%), Gaps = 4/223 (1%)
Query: 10 PRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDH 69
PRVKLGSQG+EVS G GC G+ + P ++I+ G+T FDTSD+YG H
Sbjct: 12 PRVKLGSQGMEVSAQGLGCMGMCPAFEPPKPEADMVALIRHAIAAGVTFFDTSDLYG-PH 70
Query: 70 DNEIMVGKALKQLP-RDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYI 128
NE+++GKAL+ RD+++LATKFG F G G++G P YVR CE SL+RL VD I
Sbjct: 71 TNEVLLGKALQGGGVRDRVELATKFGKFFAGG-KPGIRGDPAYVRAACEGSLRRLGVDCI 129
Query: 129 DLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYS 188
DLYYQHRVD V IE T+GELKKLVEEGKI+YIGL EASA TIRRAHAVHPITAVQ+E+S
Sbjct: 130 DLYYQHRVDKKVPIEVTIGELKKLVEEGKIRYIGLCEASASTIRRAHAVHPITAVQLEWS 189
Query: 189 LWTREIEDDIIPLCRELGIGIVAYSPLGRGFF-AGKAVVESLP 230
LW+R++E+DI+P CRELGIGIVAYSPLG+GFF +G +V+SLP
Sbjct: 190 LWSRDVEEDIVPTCRELGIGIVAYSPLGKGFFSSGAKLVDSLP 232
>sp|Q9C5B9|AKR1_ARATH Probable aldo-keto reductase 1 OS=Arabidopsis thaliana GN=At1g10810
PE=2 SV=1
Length = 344
Score = 273 bits (697), Expect = 1e-72, Method: Compositional matrix adjust.
Identities = 142/223 (63%), Positives = 172/223 (77%), Gaps = 5/223 (2%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGC-SIIKETFNRGITLFDTSDVYGV 67
V R+KLGSQGLEVS G GC GLS I++ E ++I N GITL DTSD+YG
Sbjct: 7 VRRIKLGSQGLEVSAQGLGCMGLS-IFDGTTKVETDLIALIHHAINSGITLLDTSDIYGP 65
Query: 68 DHDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDY 127
+ NE+++G+ALK R+K++LATKFG + D +G +G P YVR CEASL+RL V
Sbjct: 66 E-TNELLLGQALKDGMREKVELATKFGLLLKDQ-KLGYRGDPAYVRAACEASLRRLGVSC 123
Query: 128 IDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEY 187
IDLYYQHR+DT+V IE T+GELKKLVEEGKIKYIGLSEA A TIRRAHAVHP+TAVQ+E+
Sbjct: 124 IDLYYQHRIDTTVPIEVTIGELKKLVEEGKIKYIGLSEACASTIRRAHAVHPLTAVQLEW 183
Query: 188 SLWTREIEDDIIPLCRELGIGIVAYSPLGRGFF-AGKAVVESL 229
SLW+R++E+DIIP CRELGIGIVAYSPLG GFF AG +ES+
Sbjct: 184 SLWSRDVEEDIIPTCRELGIGIVAYSPLGLGFFAAGPKFIESM 226
>sp|A2XRZ6|AKR3_ORYSI Probable aldo-keto reductase 3 OS=Oryza sativa subsp. indica
GN=H0813E03.4 PE=3 SV=1
Length = 355
Score = 259 bits (661), Expect = 2e-68, Method: Compositional matrix adjust.
Identities = 133/229 (58%), Positives = 166/229 (72%), Gaps = 10/229 (4%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
V R+KLGSQG+EVS G GC G+S +Y + ++++ G+T DTSDVYG
Sbjct: 14 VRRMKLGSQGMEVSAQGLGCMGMSAVYGERKPEADMVALVRHAVAAGVTFLDTSDVYG-P 72
Query: 69 HDNEIMVGKALKQLPRD----KIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLD 124
H NE++VGKA ++Q+ATKFG + V+G P YVR CE SL+RL
Sbjct: 73 HTNEVLVGKAGAAAAATEEEVQVQVATKFGIT----PAWEVRGDPAYVRAACEGSLRRLG 128
Query: 125 VDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQ 184
V IDLYYQHR+D++V +E TMGELKKLVEEGKIKYIGLSEASA TIRRAH VHPITAVQ
Sbjct: 129 VGCIDLYYQHRIDSTVPVEITMGELKKLVEEGKIKYIGLSEASASTIRRAHVVHPITAVQ 188
Query: 185 MEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRGFF-AGKAVVESLPSE 232
+E+SLW+R++E+DI+P CRELGIGIVAYSPLGRGFF +G +V+ LP +
Sbjct: 189 IEWSLWSRDVEEDIVPTCRELGIGIVAYSPLGRGFFSSGAKLVDELPDD 237
>sp|Q7XQ45|AKR3_ORYSJ Probable aldo-keto reductase 3 OS=Oryza sativa subsp. japonica
GN=Os04g0339400 PE=2 SV=2
Length = 355
Score = 258 bits (660), Expect = 2e-68, Method: Compositional matrix adjust.
Identities = 133/229 (58%), Positives = 167/229 (72%), Gaps = 10/229 (4%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
V R+KLGSQG+EVS G GC G+S +Y + ++++ G+T DTSDVYG
Sbjct: 14 VRRMKLGSQGMEVSAQGLGCMGMSAVYGERKPEADMVALVRHAVAAGVTFLDTSDVYG-P 72
Query: 69 HDNEIMVGKALKQLPRD----KIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLD 124
H NE++VGKA+ ++Q+ATKFG + V+G P YVR CE SL+RL
Sbjct: 73 HTNEVLVGKAVAAAAATEEEVQVQVATKFGIT----PAWEVRGDPAYVRAACEGSLRRLG 128
Query: 125 VDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQ 184
V IDLYYQHR+D++V +E TMGELKKLVEEGKIKYIGLSEASA TIRRAH VHPITAVQ
Sbjct: 129 VGCIDLYYQHRIDSTVPVEITMGELKKLVEEGKIKYIGLSEASASTIRRAHVVHPITAVQ 188
Query: 185 MEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRGFF-AGKAVVESLPSE 232
+E+SLW+R++E+DI+P CRELGIGIVAYSPLGRGFF +G +V+ LP +
Sbjct: 189 IEWSLWSRDVEEDIVPTCRELGIGIVAYSPLGRGFFSSGAKLVDELPDD 237
>sp|Q09923|YAKC_SCHPO Aldo-keto reductase yakc [NADP(+)] OS=Schizosaccharomyces pombe
(strain 972 / ATCC 24843) GN=yakc PE=1 SV=1
Length = 340
Score = 174 bits (440), Expect = 7e-43, Method: Compositional matrix adjust.
Identities = 102/221 (46%), Positives = 135/221 (61%), Gaps = 9/221 (4%)
Query: 7 VHVPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYG 66
+ +P K+G+ V +GFGC GL +Y P S E +++ + G T +D+SD+YG
Sbjct: 1 MSIPTRKIGND--TVPAIGFGCMGLHAMYG-PSSEEANQAVLTHAADLGCTFWDSSDMYG 57
Query: 67 VDHDNEIMVGKALKQLPRDK-IQLATKFGC-FMLDGVSIGVKGSPEYVRKCCEASLKRLD 124
NE +G+ KQ R K I LATKFG + + + P+Y+ K + SLKRL
Sbjct: 58 FGA-NEECIGRWFKQTGRRKEIFLATKFGYEKNPETGELSLNNEPDYIEKALDLSLKRLG 116
Query: 125 VDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQ 184
+D IDLYY HR IE MG LKK VE GKI+YIGLSE SA+TIRRA AV+P++AVQ
Sbjct: 117 IDCIDLYYVHRFSGETPIEKIMGALKKCVEAGKIRYIGLSECSANTIRRAAAVYPVSAVQ 176
Query: 185 MEYSLWTREIEDD---IIPLCRELGIGIVAYSPLGRGFFAG 222
+EYS ++ EIE ++ CRE I IV Y+PLGRGF G
Sbjct: 177 VEYSPFSLEIERPEIGVMKACRENNITIVCYAPLGRGFLTG 217
>sp|O14295|PLR1_SCHPO Pyridoxal reductase OS=Schizosaccharomyces pombe (strain 972 / ATCC
24843) GN=plr1 PE=1 SV=1
Length = 333
Score = 132 bits (331), Expect = 3e-30, Method: Compositional matrix adjust.
Identities = 82/213 (38%), Positives = 123/213 (57%), Gaps = 10/213 (4%)
Query: 17 QGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD--HDNEIM 74
G +V +GFG GL+ K E ++ ++G +D + YGVD N +
Sbjct: 5 SGFKVGPIGFGLMGLTW-KPKQTPDEEAFEVMNYALSQGSNYWDAGEFYGVDPPTSNLDL 63
Query: 75 VGKALKQLPRD--KIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLD-VDYIDLY 131
+ + ++ P + K+ L+ K G LD ++ G+P++V K E + L +DL+
Sbjct: 64 LARYFEKYPENANKVFLSVKGG---LDFKTLVPDGNPDFVSKSVENVIAHLRGTKKLDLF 120
Query: 132 YQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYSLWT 191
RVD +V IE TM LK V+ GKI +GLSE SA+TI+RAHAV PI AV++EYSL++
Sbjct: 121 QCARVDPNVPIETTMKTLKGFVDSGKISCVGLSEVSAETIKRAHAVVPIAAVEVEYSLFS 180
Query: 192 REIEDD-IIPLCRELGIGIVAYSPLGRGFFAGK 223
R+IE + I+ +CR+L I I+AYSP RG G+
Sbjct: 181 RDIETNGIMDICRKLSIPIIAYSPFCRGLLTGR 213
>sp|P46336|IOLS_BACSU Protein IolS OS=Bacillus subtilis (strain 168) GN=iolS PE=1 SV=1
Length = 310
Score = 128 bits (321), Expect = 4e-29, Method: Compositional matrix adjust.
Identities = 69/214 (32%), Positives = 114/214 (53%), Gaps = 3/214 (1%)
Query: 11 RVKLGSQGLEVSRLGFGCGGLSGIYNKP-LSHEVGCSIIKETFNRGITLFDTSDVYGVDH 69
+ KLG L+V +G G + G P L+ E G +++E G+T+ DT+ +YG+
Sbjct: 3 KAKLGKSDLQVFPIGLGTNAVGGHNLYPNLNEETGKELVREAIRNGVTMLDTAYIYGIGR 62
Query: 70 DNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYID 129
E ++G+ L++ R+ + +ATK G SP++++K + SLKRL+ DYID
Sbjct: 63 SEE-LIGEVLREFNREDVVIATK-AAHRKQGNDFVFDNSPDFLKKSVDESLKRLNTDYID 120
Query: 130 LYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYSL 189
L+Y H D ++ + L ++ + GKI+ IG+S S + ++ A+ + +Q EY+L
Sbjct: 121 LFYIHFPDEHTPKDEAVNALNEMKKAGKIRSIGVSNFSLEQLKEANKDGLVDVLQGEYNL 180
Query: 190 WTREIEDDIIPLCRELGIGIVAYSPLGRGFFAGK 223
RE E P +E I + Y PL G AGK
Sbjct: 181 LNREAEKTFFPYTKEHNISFIPYFPLVSGLLAGK 214
>sp|P46905|YCCK_BACSU Uncharacterized oxidoreductase YccK OS=Bacillus subtilis (strain
168) GN=yccK PE=3 SV=2
Length = 310
Score = 127 bits (318), Expect = 1e-28, Method: Compositional matrix adjust.
Identities = 75/211 (35%), Positives = 113/211 (53%), Gaps = 2/211 (0%)
Query: 14 LGSQGLEVSRLGFGCGGLSGIYNKP-LSHEVGCSIIKETFNRGITLFDTSDVYGVDHDNE 72
LG L+V R+GFG + G P L+ E G +++ + G+ DT+ +YG+ E
Sbjct: 7 LGKTKLKVKRIGFGANAVGGHNLFPNLNDETGKDLVRTALDGGVNFIDTAFIYGLGRSEE 66
Query: 73 IMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYIDLYY 132
++ ++ R+++ +ATK +DG SI + S E++R E SLKRL DYIDLYY
Sbjct: 67 LIGEVVQERGVRNELIIATKGAHKEVDG-SIELDNSREFLRSEVEKSLKRLKTDYIDLYY 125
Query: 133 QHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYSLWTR 192
H D + + G LK+L +EGKIK IG S ++ +A + Q EYSL R
Sbjct: 126 VHFPDGKTPLAEVAGTLKELKDEGKIKAIGASNLDYQQLQDFNADGYLEVFQAEYSLIQR 185
Query: 193 EIEDDIIPLCRELGIGIVAYSPLGRGFFAGK 223
+ E +++P C + GI + Y PL G GK
Sbjct: 186 DAEKELLPYCEKQGISFIPYFPLASGLLTGK 216
>sp|P77256|YDJG_ECOLI Uncharacterized oxidoreductase YdjG OS=Escherichia coli (strain
K12) GN=ydjG PE=3 SV=1
Length = 326
Score = 125 bits (315), Expect = 2e-28, Method: Compositional matrix adjust.
Identities = 78/234 (33%), Positives = 124/234 (52%), Gaps = 15/234 (6%)
Query: 11 RVKLGSQGLEVSRLGFGCGGLSG--IYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
++ LG+ + +SR+G G + G +N L ++ I E GI L DT+ Y
Sbjct: 3 KIPLGTTDITLSRMGLGTWAIGGGPAWNGDLDRQICIDTILEAHRCGINLIDTAPGYNFG 62
Query: 69 HDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKG---------SPEYVRKCCEAS 119
+ +E++VG+ALK+LPR+++ + TK G S+ K SPE +R+ AS
Sbjct: 63 N-SEVIVGQALKKLPREQVVVETKCGIVWERKGSLFNKVGDRQLYKNLSPESIREEVAAS 121
Query: 120 LKRLDVDYIDLYYQHRVDTS---VSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHA 176
L+RL +DYID+Y H I +T+ L +L EGKI+ IG + AD IR
Sbjct: 122 LQRLGIDYIDIYMTHWQSVPPFFTPIAETVAVLNELKSEGKIRAIGAANVDADHIREYLQ 181
Query: 177 VHPITAVQMEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRGFFAGKAVVESLP 230
+ +Q +YS+ R +E++++PLCR+ GI + YSPL +G G + +P
Sbjct: 182 YGELDIIQAKYSILDRAMENELLPLCRDNGIVVQVYSPLEQGLLTGTITRDYVP 235
>sp|P80874|GS69_BACSU General stress protein 69 OS=Bacillus subtilis (strain 168) GN=yhdN
PE=1 SV=2
Length = 331
Score = 119 bits (299), Expect = 1e-26, Method: Compositional matrix adjust.
Identities = 75/215 (34%), Positives = 109/215 (50%), Gaps = 3/215 (1%)
Query: 14 LGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHDNEI 73
+ G+E SR+G G + G + I+ ++GITL DT+ YG EI
Sbjct: 6 IADTGIEASRIGLGTWAIGGTMWGGTDEKTSIETIRAALDQGITLIDTAPAYGFGQSEEI 65
Query: 74 MVGKALKQL-PRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYIDLYY 132
VGKA+K+ RD++ LATK + V + E SLKRL DYIDLY
Sbjct: 66 -VGKAIKEYGKRDQVILATKTALDWKNNQLFRHANRARIVEEV-ENSLKRLQTDYIDLYQ 123
Query: 133 QHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYSLWTR 192
H D V IE+T +K+L + GKI+ IG+S S + + AV P+ +Q Y+L+ R
Sbjct: 124 VHWPDPLVPIEETAEVMKELYDAGKIRAIGVSNFSIEQMDTFRAVAPLHTIQPPYNLFER 183
Query: 193 EIEDDIIPLCRELGIGIVAYSPLGRGFFAGKAVVE 227
E+E+ ++P ++ I + Y L RG GK E
Sbjct: 184 EMEESVLPYAKDNKITTLLYGSLCRGLLTGKMTEE 218
>sp|O94521|PLR2_SCHPO Probable pyridoxal reductase 2 OS=Schizosaccharomyces pombe (strain
972 / ATCC 24843) GN=SPCC1281.04 PE=3 SV=1
Length = 333
Score = 112 bits (279), Expect = 3e-24, Method: Compositional matrix adjust.
Identities = 73/215 (33%), Positives = 117/215 (54%), Gaps = 14/215 (6%)
Query: 17 QGLEVSRLGFGCGGLSGIYNKPLSHEV--GCSIIKETFNRGITLFDTSDVYGVDHD--NE 72
G +V +G G GL+ +P + ++ ++G ++ + YG++ N
Sbjct: 5 NGFKVGPIGLGLMGLTW---RPKQTPIKQAFELMNYALSQGSNYWNAGEFYGINPPTANL 61
Query: 73 IMVGKALKQLPR--DKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLD-VDYID 129
++ ++ P+ DK+ L+ K G D ++ G PE V K + +L RL +D
Sbjct: 62 DLLADYFEKYPKNADKVFLSVKGGT---DFKTLAPHGDPESVTKSVKNALTRLRGKKKLD 118
Query: 130 LYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYSL 189
L+ RVD V IE TM LK V+ G+I +GLSEASA++I+RA A+ PI AV+ EYSL
Sbjct: 119 LFQCARVDHKVPIETTMKALKAFVDSGEISCVGLSEASAESIKRALAIVPIAAVETEYSL 178
Query: 190 WTREIEDD-IIPLCRELGIGIVAYSPLGRGFFAGK 223
++R+IE + I+ C +L I I+AY+P G G+
Sbjct: 179 FSRDIEKNGILDTCTQLSIPIIAYAPFCHGLLTGR 213
>sp|O23016|KCAB_ARATH Probable voltage-gated potassium channel subunit beta
OS=Arabidopsis thaliana GN=KAB1 PE=1 SV=1
Length = 328
Score = 110 bits (275), Expect = 8e-24, Method: Compositional matrix adjust.
Identities = 81/232 (34%), Positives = 122/232 (52%), Gaps = 19/232 (8%)
Query: 13 KLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHDNE 72
LG GL+VS L FG G L + SI++ + G+ FD ++VY E
Sbjct: 5 NLGKSGLKVSTLSFGAWVTFG---NQLDVKEAKSILQCCRDHGVNFFDNAEVYANGRAEE 61
Query: 73 IMVGKALKQL--PRDKIQLATKFGCFMLDGVSIGVKG-SPEYVRKCCEASLKRLDVDYID 129
IM G+A+++L R I ++TK G KG S +++ + +ASLKRLD+DY+D
Sbjct: 62 IM-GQAIRELGWRRSDIVISTKI---FWGGPGPNDKGLSRKHIVEGTKASLKRLDMDYVD 117
Query: 130 LYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHA-------VHPITA 182
+ Y HR D S IE+T+ + ++++G Y G SE SA I A V PI
Sbjct: 118 VLYCHRPDASTPIEETVRAMNYVIDKGWAFYWGTSEWSAQQITEAWGAADRLDLVGPIVE 177
Query: 183 VQMEYSLWTR-EIEDDIIPLCRELGIGIVAYSPLGRGFFAGKAVVESLPSES 233
Q EY+++ R ++E + +PL GIG+ +SPL G GK ++PS+S
Sbjct: 178 -QPEYNMFARHKVETEFLPLYTNHGIGLTTWSPLASGVLTGKYNKGAIPSDS 228
>sp|P54569|YQKF_BACSU Uncharacterized oxidoreductase YqkF OS=Bacillus subtilis (strain
168) GN=yqkF PE=3 SV=1
Length = 306
Score = 107 bits (266), Expect = 1e-22, Method: Compositional matrix adjust.
Identities = 79/224 (35%), Positives = 117/224 (52%), Gaps = 14/224 (6%)
Query: 13 KLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHDNE 72
KLG+ L++S +G GC L NK LS I+ E GI DT+D+Y + E
Sbjct: 5 KLGTSDLDISEVGLGCMSLGTEKNKALS------ILDEAIELGINYLDTADLYDRGRNEE 58
Query: 73 IMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPE--YVRKCCEASLKRLDVDYIDL 130
I VG A+ Q R I LATK G DG S G P Y+++ + SL RL DYIDL
Sbjct: 59 I-VGDAI-QNRRHDIILATKAGNRWDDG-SEGWYWDPSKAYIKEAVKKSLTRLKTDYIDL 115
Query: 131 YYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYSLW 190
Y H +I++T+ ++L +EG I+Y G+S + I+ I ++ M++SL+
Sbjct: 116 YQLHGGTIEDNIDETIEAFEELKQEGVIRYYGISSIRPNVIKEYVKKSNIVSIMMQFSLF 175
Query: 191 TREIEDDIIPLCRELGIGIVAYSPLGRGFFAGKAVVESLPSESI 234
R E + +PL E I +VA P+ +G K + ++ SES+
Sbjct: 176 DRRPE-EWLPLLEEHQISVVARGPVAKGLLTEKPLDQA--SESM 216
>sp|O59826|KCAB_SCHPO Putative voltage-gated potassium channel subunit beta
OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843)
GN=SPCC965.06 PE=3 SV=1
Length = 344
Score = 107 bits (266), Expect = 1e-22, Method: Compositional matrix adjust.
Identities = 74/226 (32%), Positives = 117/226 (51%), Gaps = 14/226 (6%)
Query: 8 HVPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGV 67
+VP LG GL+VS G G + H C +K+ ++ GI FDT+++Y
Sbjct: 12 NVPFRFLGRSGLKVSAFSLGGWLTYGNEGYDVEHTKNC--LKQAWDLGINTFDTAEIYS- 68
Query: 68 DHDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSI-GVKG-SPEYVRKCCEASLKRLDV 125
+ ++E ++GKA+K+L D+ + F G + G S +++ + ASLKRL +
Sbjct: 69 NGNSETVMGKAIKELGWDRSEYVITTKVFFGAGTKLPNTTGLSRKHIIEGLNASLKRLGL 128
Query: 126 DYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHA-------VH 178
Y+D+ HR D SV +E+ + +L+++GK Y G SE SA I AH +
Sbjct: 129 PYVDVIMAHRPDPSVPMEEVVRAFTQLIQDGKAFYWGTSEWSAFEIEHAHHIATKYNLIA 188
Query: 179 PITAVQMEYSLWTRE-IEDDIIPLCRELGIGIVAYSPLGRGFFAGK 223
P+ A Q +Y+ TR+ E D++PL + G G +SPL G GK
Sbjct: 189 PV-ADQPQYNYLTRDHFEKDLLPLQQIYGYGATVWSPLKSGILTGK 233
>sp|P77735|YAJO_ECOLI Uncharacterized oxidoreductase YajO OS=Escherichia coli (strain
K12) GN=yajO PE=3 SV=2
Length = 324
Score = 106 bits (265), Expect = 1e-22, Method: Compositional matrix adjust.
Identities = 73/216 (33%), Positives = 113/216 (52%), Gaps = 15/216 (6%)
Query: 14 LGSQGLEVSRLGFGCGGL----SGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDH 69
LG L VSRL GC G + L E IIK GI FDT++ Y D
Sbjct: 6 LGKTDLRVSRLCLGCMTFGEPDRGNHAWTLPEESSRPIIKRALEGGINFFDTANSYS-DG 64
Query: 70 DNEIMVGKALKQLPR-DKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYI 128
+E +VG+AL+ R + + +ATK + D + G+ S + + + SL+RL +DY+
Sbjct: 65 SSEEIVGRALRDFARREDVVVATKVFHRVGD-LPEGL--SRAQILRSIDDSLRRLGMDYV 121
Query: 129 DLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSE------ASADTIRRAHAVHPITA 182
D+ HR D + IE+T+ L +V+ GK +YIG S A A +++ H +
Sbjct: 122 DILQIHRWDYNTPIEETLEALNDVVKAGKARYIGASSMHASQFAQALELQKQHGWAQFVS 181
Query: 183 VQMEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRG 218
+Q Y+L RE E +++PLC + G+ ++ +SPL RG
Sbjct: 182 MQDHYNLIYREEEREMLPLCYQEGVAVIPWSPLARG 217
>sp|Q40648|KCAB_ORYSJ Probable voltage-gated potassium channel subunit beta OS=Oryza
sativa subsp. japonica GN=KOB1 PE=1 SV=2
Length = 328
Score = 105 bits (261), Expect = 4e-22, Method: Compositional matrix adjust.
Identities = 73/232 (31%), Positives = 120/232 (51%), Gaps = 19/232 (8%)
Query: 13 KLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHDNE 72
LG GL VS+L +G G L + ++++ + G+ FD ++VY E
Sbjct: 5 NLGRSGLRVSQLSYGAWVTFG---NQLDVKEAKALLQACRDAGVNFFDNAEVYANGRAEE 61
Query: 73 IMVGKALKQL--PRDKIQLATKFGCFMLDGVSIGVKG-SPEYVRKCCEASLKRLDVDYID 129
IM G+A++ L R + ++TK G KG S +++ + SLKRLD+DY+D
Sbjct: 62 IM-GQAMRDLGWRRSDVVVSTKL---FWGGQGPNDKGLSRKHIVEGLRGSLKRLDMDYVD 117
Query: 130 LYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVH-------PITA 182
+ Y HR D + +E+T+ + +++ G Y G SE SA I A +V PI
Sbjct: 118 VVYCHRPDATTPVEETVRAMNWVIDHGMAFYWGTSEWSAQQITEAWSVANRLDLVGPIVE 177
Query: 183 VQMEYSLWTR-EIEDDIIPLCRELGIGIVAYSPLGRGFFAGKAVVESLPSES 233
Q EY+L++R ++E + +PL G+G+ +SPL G GK ++P++S
Sbjct: 178 -QPEYNLFSRHKVESEFLPLYSTYGLGLTTWSPLASGVLTGKYAKGNIPADS 228
>sp|O81884|GALDH_ARATH L-galactose dehydrogenase OS=Arabidopsis thaliana GN=LGALDH PE=1
SV=1
Length = 319
Score = 104 bits (260), Expect = 4e-22, Method: Compositional matrix adjust.
Identities = 74/236 (31%), Positives = 119/236 (50%), Gaps = 16/236 (6%)
Query: 14 LGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHDNEI 73
LG+ GL+VS +GFG L ++ P++ + + ++E F GI FDTS YG +E
Sbjct: 9 LGNTGLKVSAVGFGASPLGSVFG-PVAEDDAVATVREAFRLGINFFDTSPYYG-GTLSEK 66
Query: 74 MVGKALK--QLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYIDLY 131
M+GK LK Q+PR +ATK G + G S E VRK + SL+RL +DY+D+
Sbjct: 67 MLGKGLKALQVPRSDYIVATKCGRY-----KEGFDFSAERVRKSIDESLERLQLDYVDIL 121
Query: 132 YQHRVD---TSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYS 188
+ H ++ + +T+ L+KL +EGK ++IG++ D P V + S
Sbjct: 122 HCHDIEFGSLDQIVSETIPALQKLKQEGKTRFIGITGLPLDIFTYVLDRVPPGTVDVILS 181
Query: 189 LWTREIED----DIIPLCRELGIGIVAYSPLGRGFFAGKAVVESLPSESILVCVTK 240
+ D D++P + G+G+++ SPL G + E P+ L +K
Sbjct: 182 YCHYGVNDSTLLDLLPYLKSKGVGVISASPLAMGLLTEQGPPEWHPASPELKSASK 237
>sp|O05408|YRPG_BACSU Uncharacterized oxidoreductase YrpG OS=Bacillus subtilis (strain
168) GN=yrpG PE=3 SV=2
Length = 326
Score = 103 bits (258), Expect = 9e-22, Method: Compositional matrix adjust.
Identities = 73/232 (31%), Positives = 110/232 (47%), Gaps = 30/232 (12%)
Query: 14 LGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHD--- 70
LG GL VSRL G + + I+ E + GI FDT+++YG +
Sbjct: 6 LGRTGLRVSRLCLGTMN----FGVDTDEKTAFRIMDEALDNGIQFFDTANIYGWGKNAGL 61
Query: 71 NEIMVGKALKQ--LPRDKIQLATKF---------GCFMLDGVSIGVKGSPEYVRKCCEAS 119
E ++GK Q R+K+ LATK G + G+S+ +R+ E S
Sbjct: 62 TESIIGKWFAQGGQRREKVVLATKVYEPISDPNDGPNDMRGLSL------YKIRRHLEGS 115
Query: 120 LKRLDVDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHA--- 176
LKRL D+I+LY H +D ++ + V GK+ YIG S + + +A A
Sbjct: 116 LKRLQTDHIELYQMHHIDRRTPWDEIWEAFETQVRSGKVDYIGSSNFAGWHLVKAQAEAE 175
Query: 177 ---VHPITAVQMEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRGFFAGKAV 225
+ Q +YSL R E +++P R+LG+G+VA+SPL G GKA+
Sbjct: 176 KRRFMGLVTEQHKYSLLERTAEMEVLPAARDLGLGVVAWSPLAGGLLGGKAL 227
>sp|O94315|YH5B_SCHPO Uncharacterized oxidoreductase C215.11c OS=Schizosaccharomyces
pombe (strain 972 / ATCC 24843) GN=SPBC215.11c PE=3 SV=1
Length = 306
Score = 103 bits (256), Expect = 1e-21, Method: Compositional matrix adjust.
Identities = 66/212 (31%), Positives = 113/212 (53%), Gaps = 8/212 (3%)
Query: 12 VKLGSQGLEVSRLGFGCGGLSG--IYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDH 69
VK+G + V+R+GFG ++G I+++P E + +K I DT+D YG +
Sbjct: 18 VKVGD--MVVNRMGFGAMRVTGDGIWDEPKDKEACIATLKRLPELNINFIDTADSYGPEV 75
Query: 70 DNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYID 129
+E ++ +AL P + +ATK G G+P+++R+ S++RL V ID
Sbjct: 76 -SENLLREAL--YPYKGLIIATKGGLVRTGPNEWHPCGAPKFLRQEVLMSMRRLGVKQID 132
Query: 130 LYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYSL 189
L+ HR+D V +D E+ + +EG I+++GLSE + D I+ A P+ +VQ ++L
Sbjct: 133 LWQLHRIDPKVPRKDQFSEIAAMKKEGLIRHVGLSEVTVDDIKEAEQYFPVVSVQNLFNL 192
Query: 190 WTREIEDDIIPLCRELGIGIVAYSPLGRGFFA 221
R+ E ++ C + GI + + PL G A
Sbjct: 193 VNRKNE-KVLEYCEQKGIAFIPWYPLASGALA 223
>sp|O14125|YEZB_SCHPO Uncharacterized oxidoreductase C3A11.11c OS=Schizosaccharomyces
pombe (strain 972 / ATCC 24843) GN=SPAC3A11.11c PE=3
SV=1
Length = 334
Score = 100 bits (248), Expect = 1e-20, Method: Compositional matrix adjust.
Identities = 71/213 (33%), Positives = 110/213 (51%), Gaps = 18/213 (8%)
Query: 21 VSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHD--NEIMVGKA 78
V +G G L+ N P+ E I+ + G + +D + YG+ N ++ +
Sbjct: 9 VGPIGLGLKSLTWTEN-PVPDEEAFRIMNYALSHGCSFWDAGEFYGLSEPLANLQLLSRY 67
Query: 79 LKQLPR--DKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRL-----DVDYIDLY 131
++ P DK+ L+ K G F D + V G+ R+C S+K + V IDLY
Sbjct: 68 FQKFPDSIDKVFLSVK-GAF--DPETHRVHGT----RECITKSIKTVRETLKKVKTIDLY 120
Query: 132 YQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVHPITAVQMEYSLWT 191
+D IE+TM LK+ V+ G I+ IGL E S + I+RAH+V I A+++ YS+
Sbjct: 121 QCAAIDPDTPIEETMACLKEFVDSGDIRCIGLCEPSVEEIKRAHSVVRIAAIEVHYSMLF 180
Query: 192 REIE-DDIIPLCRELGIGIVAYSPLGRGFFAGK 223
REIE + + LC +L I +VA+SPL G G+
Sbjct: 181 REIEYNGVKKLCHDLSIPLVAHSPLAHGLLTGR 213
>sp|Q9P7U2|YI7E_SCHPO Putative aryl-alcohol dehydrogenase C977.14c OS=Schizosaccharomyces
pombe (strain 972 / ATCC 24843) GN=SPAC977.14c PE=1 SV=1
Length = 351
Score = 97.8 bits (242), Expect = 5e-20, Method: Compositional matrix adjust.
Identities = 75/242 (30%), Positives = 112/242 (46%), Gaps = 38/242 (15%)
Query: 14 LGSQGLEVSRLGFGCG--GLSGIYNKPL--SHEVGCSIIKETFNRGITLFDTSDVYGVDH 69
LG+ GL+VS+L GC G + + E I+K ++ GI FDT++ Y
Sbjct: 12 LGNSGLKVSKLILGCMSYGKKEYWEDWVLEDEEEVFKIMKAAYDAGIRTFDTANCYSAGV 71
Query: 70 DNEIMVGKALK--QLPRDKIQLATKFGCFM------------LDGVSIGVKGSPEYVRKC 115
E +VGK ++ ++PR I + +K CF L + SPE +C
Sbjct: 72 SEE-LVGKFIRKYEIPRSSIVILSK--CFFPVRKDLIKIFGDLSSRGVHFLDSPELANQC 128
Query: 116 ----------CEASLKRLDVDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSE 165
E S+KRL YID+ HR D VS E+ M L +VE GK++YIG S
Sbjct: 129 GLSRKHIFDAVEDSVKRLGT-YIDVLQIHRYDPHVSAEEVMRALNDVVESGKVRYIGAST 187
Query: 166 ASA------DTIRRAHAVHPITAVQMEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRGF 219
H H ++Q ++L RE E ++IP C++ G+G++ +SPL RG
Sbjct: 188 MRCYQFIELQNTAEKHGWHKFISMQNYHNLLYREEEREMIPYCQKTGVGLIPWSPLARGL 247
Query: 220 FA 221
Sbjct: 248 LT 249
>sp|Q8X529|GPR_ECO57 L-glyceraldehyde 3-phosphate reductase OS=Escherichia coli O157:H7
GN=gpr PE=3 SV=1
Length = 346
Score = 97.1 bits (240), Expect = 1e-19, Method: Compositional matrix adjust.
Identities = 69/229 (30%), Positives = 119/229 (51%), Gaps = 15/229 (6%)
Query: 15 GSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHDN-EI 73
G GL + L G G N + E +I+++ F+ GIT FD ++ YG + E
Sbjct: 19 GKSGLRLPALSLGLWHNFGHVN---ALESQRAILRKAFDLGITHFDLANNYGPPPGSAEE 75
Query: 74 MVGKALKQ---LPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYIDL 130
G+ L++ RD++ ++TK G M G G GS +Y+ + SLKR+ ++Y+D+
Sbjct: 76 NFGRLLREDFAAYRDELIISTKAGYDMWPG-PYGSGGSRKYLLASLDQSLKRMGLEYVDI 134
Query: 131 YYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASAD-TIRRAHAVH----PITAVQM 185
+Y HRVD + +E+T L V+ GK Y+G+S S + T + +H P+ Q
Sbjct: 135 FYSHRVDENTPMEETASALAHAVQSGKALYVGISSYSPERTQKMVELLHEWKIPLLIHQP 194
Query: 186 EYSLWTREIEDD-IIPLCRELGIGIVAYSPLGRGFFAGKAVVESLPSES 233
Y+L R ++ ++ + G+G +A++PL +G GK + +P +S
Sbjct: 195 SYNLLNRWVDKSGLLDTLQNNGVGCIAFTPLAQGLLTGK-YLNGIPEDS 242
>sp|Q00049|NORA_ASPFL Norsolorinic acid reductase OS=Aspergillus flavus GN=norA PE=3 SV=1
Length = 388
Score = 96.7 bits (239), Expect = 1e-19, Method: Compositional matrix adjust.
Identities = 68/226 (30%), Positives = 109/226 (48%), Gaps = 18/226 (7%)
Query: 11 RVKLGSQGLEVSRLGFGC----GGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYG 66
R+ S G+ VS L G G G+ + +++ + G D ++ Y
Sbjct: 17 RILSSSAGVRVSPLCLGTMSFGNGWKGVMGE-CDQATSFNMLDTFYESGGNFIDVANFY- 74
Query: 67 VDHDNEIMVGKALKQLP-RDKIQLATKFGC----FMLDGVSIGVKGS-PEYVRKCCEASL 120
D E VG+ + Q RD+I L+TK+ F + +G+ + +R +ASL
Sbjct: 75 QGGDTERWVGEWMAQRQNRDEIVLSTKYTMGYTMFGPQKIKSNYQGNHAKSLRLSVKASL 134
Query: 121 KRLDVDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASA------DTIRRA 174
++L DYIDL Y H D + S+E+ M L LV GK+ Y+G+S+ A + RA
Sbjct: 135 QKLQTDYIDLLYVHMWDFTTSVEEVMRSLNHLVANGKVLYLGVSDTPAWLVVKCNAFARA 194
Query: 175 HAVHPITAVQMEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRGFF 220
+ + P + Q +S R+ E DI+P+C G+G+ + LGRG F
Sbjct: 195 NGLTPFSVYQGHWSCAFRDFERDILPMCESEGMGLAPWGVLGRGQF 240
>sp|Q00258|NORA_ASPPA Norsolorinic acid reductase OS=Aspergillus parasiticus GN=norA PE=3
SV=1
Length = 388
Score = 96.3 bits (238), Expect = 2e-19, Method: Compositional matrix adjust.
Identities = 68/226 (30%), Positives = 109/226 (48%), Gaps = 18/226 (7%)
Query: 11 RVKLGSQGLEVSRLGFGC----GGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYG 66
R+ S G+ VS L G G G+ + +++ + G D ++ Y
Sbjct: 17 RILSPSAGVRVSPLCLGTMSFGNGWKGVMGE-CDQATSFNMLDTFYESGGNFIDVANFY- 74
Query: 67 VDHDNEIMVGKALKQLP-RDKIQLATKFGC----FMLDGVSIGVKGS-PEYVRKCCEASL 120
D E VG+ + Q RD+I L+TK+ F + +G+ + +R +ASL
Sbjct: 75 QGGDTERWVGEWMAQRQNRDEIVLSTKYTMGYTMFGPQKIKSNFQGNHAKSLRLSVKASL 134
Query: 121 KRLDVDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASA------DTIRRA 174
++L DYIDL Y H D + S+E+ M L LV GK+ Y+G+S+ A + RA
Sbjct: 135 QKLQTDYIDLLYVHMWDFTTSVEEVMRSLNHLVANGKVLYLGVSDTPAWLVVKCNAFARA 194
Query: 175 HAVHPITAVQMEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRGFF 220
+ + P + Q +S R+ E DI+P+C G+G+ + LGRG F
Sbjct: 195 NGLTPFSVYQGHWSSAFRDFERDILPMCESEGMGLAPWGVLGRGQF 240
>sp|Q46851|GPR_ECOLI L-glyceraldehyde 3-phosphate reductase OS=Escherichia coli (strain
K12) GN=gpr PE=1 SV=1
Length = 346
Score = 95.1 bits (235), Expect = 3e-19, Method: Compositional matrix adjust.
Identities = 67/229 (29%), Positives = 118/229 (51%), Gaps = 15/229 (6%)
Query: 15 GSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHDN-EI 73
G GL + L G G N + E +I+++ F+ GIT FD ++ YG + E
Sbjct: 19 GKSGLRLPALSLGLWHNFGHVN---ALESQRAILRKAFDLGITHFDLANNYGPPPGSAEE 75
Query: 74 MVGKALKQ---LPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRKCCEASLKRLDVDYIDL 130
G+ L++ RD++ ++TK G M G G GS +Y+ + SLKR+ ++Y+D+
Sbjct: 76 NFGRLLREDFAAYRDELIISTKAGYDMWPG-PYGSGGSRKYLLASLDQSLKRMGLEYVDI 134
Query: 131 YYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVH-----PITAVQM 185
+Y HRVD + +E+T L V+ GK Y+G+S S + ++ + P+ Q
Sbjct: 135 FYSHRVDENTPMEETASALAHAVQSGKALYVGISSYSPERTQKMVELLREWKIPLLIHQP 194
Query: 186 EYSLWTREIEDD-IIPLCRELGIGIVAYSPLGRGFFAGKAVVESLPSES 233
Y+L R ++ ++ + G+G +A++PL +G GK + +P +S
Sbjct: 195 SYNLLNRWVDKSGLLDTLQNNGVGCIAFTPLAQGLLTGK-YLNGIPQDS 242
>sp|G2TRN6|YLZ1_SCHPO Putative aryl-alcohol dehydrogenase C750.01 OS=Schizosaccharomyces
pombe (strain 972 / ATCC 24843) GN=SPAC750.01 PE=3 SV=1
Length = 325
Score = 94.0 bits (232), Expect = 8e-19, Method: Compositional matrix adjust.
Identities = 66/205 (32%), Positives = 101/205 (49%), Gaps = 34/205 (16%)
Query: 47 IIKETFNRGITLFDTSDVYGVDHDNEIMVGKALK--QLPRDKIQLATKFGCF-------- 96
I+K ++ GI FDT+++Y E +VGK ++ ++PR I + +K CF
Sbjct: 23 IMKAAYDAGIRTFDTANIYSAGVSEE-LVGKFIRKYEIPRSSIVIMSK--CFSPVRKDLI 79
Query: 97 --MLDGVSIGVK--GSPEYVRKC----------CEASLKRLDVDYIDLYYQHRVDTSVSI 142
+D S GV+ SPE +C + S+KRL YID+ HR D VS
Sbjct: 80 KLYMDLSSRGVQLHDSPELANQCGLSRKHIFDAVQDSVKRLGT-YIDVLQIHRYDPHVSA 138
Query: 143 EDTMGELKKLVEEGKIKYIGLSEA------SADTIRRAHAVHPITAVQMEYSLWTREIED 196
E+ M L +VE GK++YIG S H H ++Q ++L RE E
Sbjct: 139 EEVMRALNDVVESGKVRYIGASTMRYYQFIELQNTAEKHGWHKFISMQNYHNLLYREEER 198
Query: 197 DIIPLCRELGIGIVAYSPLGRGFFA 221
++IP C++ G+G++ +SPL RG
Sbjct: 199 EMIPYCQKTGVGLIPWSPLARGLLT 223
>sp|Q00727|STCV_EMENI Putative sterigmatocystin biosynthesis dehydrogenase stcV
OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 /
CBS 112.46 / NRRL 194 / M139) GN=stcV PE=3 SV=2
Length = 387
Score = 90.5 bits (223), Expect = 1e-17, Method: Compositional matrix adjust.
Identities = 62/215 (28%), Positives = 103/215 (47%), Gaps = 14/215 (6%)
Query: 18 GLEVSRLGFGCGGLSGIYNKPL---SHEVGCSIIKETFNRGITLFDTSDVYGVDHDNEIM 74
G+ VS L G G + + + + E +++ + G DT++ Y + + +
Sbjct: 24 GIRVSPLCLGTMHFGGQWTRAMGDVTKETAFALLDRFYEAGGNFIDTANFYQGEGSEKWL 83
Query: 75 VGKALKQLPRDKIQLATKFG-CFMLDG---VSIGVKGS-PEYVRKCCEASLKRLDVDYID 129
+ RD++ LATK+ + L G + +GS + +R EASL +L DYID
Sbjct: 84 GEWVASRGNRDELVLATKYTMSYRLTGPEKIKSNFQGSHSKSLRLSVEASLAKLRTDYID 143
Query: 130 LYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASA------DTIRRAHAVHPITAV 183
L Y H D S S+E+ M L LV GK+ IG+S+A A + R H +
Sbjct: 144 LLYVHMWDFSTSVEEVMQSLHHLVAAGKVLNIGISDAPAWVVAKCNEYARFHGLTRFCVY 203
Query: 184 QMEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRG 218
Q ++ R+ E +I+P+C+ G+ + + LGRG
Sbjct: 204 QGRWACSYRDFEREILPMCQSEGLALAPWGALGRG 238
>sp|P42884|AAD14_YEAST Putative aryl-alcohol dehydrogenase AAD14 OS=Saccharomyces
cerevisiae (strain ATCC 204508 / S288c) GN=AAD14 PE=1
SV=1
Length = 376
Score = 89.4 bits (220), Expect = 2e-17, Method: Compositional matrix adjust.
Identities = 65/235 (27%), Positives = 112/235 (47%), Gaps = 21/235 (8%)
Query: 11 RVKLGSQGLEVSRLGFGCGGLSGIYNK---PLSHEVGCSIIKETFNRGITLFDTSDVYGV 67
RV + G+ VS L G + ++ ++ E ++ + G DT++ Y
Sbjct: 19 RVLSKTAGIRVSPLILGGASIGDAWSGFMGSMNKEQAFELLDAFYEAGGNCIDTANSYQ- 77
Query: 68 DHDNEIMVGKALKQLP-RDKIQLATKF-GCFMLDGVSIGVKGSPEY-------VRKCCEA 118
+ ++EI +G+ + RD+I +ATKF G + +G S Y +
Sbjct: 78 NEESEIWIGEWMASRKLRDQIVIATKFTGDY--KKYEVGGGKSANYCGNHKRSLHVSVRD 135
Query: 119 SLKRLDVDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRA---- 174
SL++L D+ID+ Y H D SIE+ M L LV++GK+ Y+G+S+ A + A
Sbjct: 136 SLRKLQTDWIDILYIHWWDYMSSIEEVMDSLHILVQQGKVLYLGVSDTPAWVVSAANYYA 195
Query: 175 --HAVHPITAVQMEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRGFFAGKAVVE 227
H P + Q ++++ R+ E DIIP+ R G+ + + +G G F K +E
Sbjct: 196 TSHGKTPFSVYQGKWNVLNRDFERDIIPMARHFGMALAPWDVMGGGRFQSKKAME 250
>sp|Q07747|AAD4_YEAST Probable aryl-alcohol dehydrogenase AAD4 OS=Saccharomyces
cerevisiae (strain ATCC 204508 / S288c) GN=AAD4 PE=2
SV=1
Length = 329
Score = 88.6 bits (218), Expect = 4e-17, Method: Compositional matrix adjust.
Identities = 58/204 (28%), Positives = 103/204 (50%), Gaps = 18/204 (8%)
Query: 39 LSHEVGCSIIKETFNRGITLFDTSDVYGVDHDNEIMVGKALKQLP-RDKIQLATKF-GCF 96
++ E ++ + G DT++ Y + ++EI +G+ +K RD+I +ATKF G +
Sbjct: 4 MNKEQAFELLDAFYEAGGNCIDTANSYQ-NEESEIWIGEWMKSRKLRDQIVIATKFTGDY 62
Query: 97 MLDGVSIGVKGSPEY-------VRKCCEASLKRLDVDYIDLYYQHRVDTSVSIEDTMGEL 149
+G S Y + SL++L D+ID+ Y H D SIE+ M L
Sbjct: 63 --KKYEVGGGKSANYCGNHKHSLHVSVRDSLRKLQTDWIDILYVHWWDYMSSIEEVMDSL 120
Query: 150 KKLVEEGKIKYIGLSE------ASADTIRRAHAVHPITAVQMEYSLWTREIEDDIIPLCR 203
LV++GK+ Y+G+S+ ++A+ +H P + Q ++++ R+ E DIIP+ R
Sbjct: 121 HILVQQGKVLYLGVSDTPAWVVSAANYYATSHGKTPFSIYQGKWNVLNRDFERDIIPMAR 180
Query: 204 ELGIGIVAYSPLGRGFFAGKAVVE 227
G+ + + +G G F K +E
Sbjct: 181 HFGMALAPWDVMGGGRFQSKKAME 204
>sp|Q9PWR1|KCAB1_CHICK Voltage-gated potassium channel subunit beta-1 OS=Gallus gallus
GN=KCNAB1 PE=2 SV=1
Length = 401
Score = 87.8 bits (216), Expect = 7e-17, Method: Compositional matrix adjust.
Identities = 66/221 (29%), Positives = 111/221 (50%), Gaps = 17/221 (7%)
Query: 13 KLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHDNE 72
LG GL VS LG G G +S EV ++ + G+ LFDT++VY E
Sbjct: 75 NLGKSGLRVSCLGLGTWVTFG---GQISDEVAEQLMTIAYESGVNLFDTAEVYAAGKA-E 130
Query: 73 IMVGKALKQ--LPRDKIQLATKFGCFMLDGVSIGVKG-SPEYVRKCCEASLKRLDVDYID 129
+++G LK+ R + + TK G + +G S +++ + ASL+RL ++Y+D
Sbjct: 131 VILGNILKKKGWRRSSLVITTKL---YWGGKAETERGLSRKHIIEGLRASLQRLQLEYVD 187
Query: 130 LYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVH------PITAV 183
+ + +R D + +E+ + + ++ +G Y G S SA I A++V P
Sbjct: 188 VVFANRPDNNTPMEEIVRAMTHVINQGMAMYWGTSRWSAMEIMEAYSVARQFNLIPPVCE 247
Query: 184 QMEYSLWTRE-IEDDIIPLCRELGIGIVAYSPLGRGFFAGK 223
Q EY L+ RE +E + L ++G+G + +SPL G +GK
Sbjct: 248 QAEYHLFQREKVEVQLPELYHKIGVGAMTWSPLACGIISGK 288
>sp|Q14722|KCAB1_HUMAN Voltage-gated potassium channel subunit beta-1 OS=Homo sapiens
GN=KCNAB1 PE=2 SV=1
Length = 419
Score = 87.0 bits (214), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 64/225 (28%), Positives = 114/225 (50%), Gaps = 17/225 (7%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
+P LG GL VS LG G + +S EV ++ + G+ LFDT++VY
Sbjct: 89 MPHRNLGKSGLRVSCLGLGTWV---TFGGQISDEVAERLMTIAYESGVNLFDTAEVYAAG 145
Query: 69 HDNEIMVGKALKQ--LPRDKIQLATKFGCFMLDGVSIGVKG-SPEYVRKCCEASLKRLDV 125
E+++G +K+ R + + TK G + +G S +++ + + SL+RL +
Sbjct: 146 KA-EVILGSIIKKKGWRRSSLVITTKL---YWGGKAETERGLSRKHIIEGLKGSLQRLQL 201
Query: 126 DYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVH------P 179
+Y+D+ + +R D++ +E+ + + ++ +G Y G S SA I A++V P
Sbjct: 202 EYVDVVFANRPDSNTPMEEIVRAMTHVINQGMAMYWGTSRWSAMEIMEAYSVARQFNMIP 261
Query: 180 ITAVQMEYSLWTRE-IEDDIIPLCRELGIGIVAYSPLGRGFFAGK 223
Q EY L+ RE +E + L ++G+G + +SPL G +GK
Sbjct: 262 PVCEQAEYHLFQREKVEVQLPELYHKIGVGAMTWSPLACGIISGK 306
>sp|Q9XT31|KCAB1_RABIT Voltage-gated potassium channel subunit beta-1 OS=Oryctolagus
cuniculus GN=KCNAB1 PE=2 SV=1
Length = 419
Score = 87.0 bits (214), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 64/225 (28%), Positives = 114/225 (50%), Gaps = 17/225 (7%)
Query: 9 VPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVD 68
+P LG GL VS LG G + +S EV ++ + G+ LFDT++VY
Sbjct: 89 MPHRNLGKSGLRVSCLGLGTWV---TFGGQISDEVAERLMTIAYESGVNLFDTAEVYAAG 145
Query: 69 HDNEIMVGKALKQ--LPRDKIQLATKFGCFMLDGVSIGVKG-SPEYVRKCCEASLKRLDV 125
E+++G +K+ R + + TK G + +G S +++ + + SL+RL +
Sbjct: 146 KA-EVILGSIIKKKGWRRSSLVITTKL---YWGGKAETERGLSRKHIIEGLKGSLQRLQL 201
Query: 126 DYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVH------P 179
+Y+D+ + +R D++ +E+ + + ++ +G Y G S SA I A++V P
Sbjct: 202 EYVDVVFANRPDSNTPMEEIVRAMTHVINQGMAMYWGTSRWSAMEIMEAYSVARQFNMIP 261
Query: 180 ITAVQMEYSLWTRE-IEDDIIPLCRELGIGIVAYSPLGRGFFAGK 223
Q EY L+ RE +E + L ++G+G + +SPL G +GK
Sbjct: 262 PVCEQAEYHLFQREKVEVQLPELYHKIGVGAMTWSPLACGIISGK 306
>sp|Q9PTM4|KCAB3_XENLA Voltage-gated potassium channel subunit beta-3 OS=Xenopus laevis
GN=kcnab3 PE=2 SV=1
Length = 401
Score = 87.0 bits (214), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 68/231 (29%), Positives = 115/231 (49%), Gaps = 18/231 (7%)
Query: 13 KLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHDNE 72
LG GL VS LG G + +S EV +++ + G+ LFDT++VY E
Sbjct: 75 NLGKSGLRVSCLGLGTWV---TFGSQISDEVAENLMTVAYEHGVNLFDTAEVYAAGRA-E 130
Query: 73 IMVGKALK--QLPRDKIQLATKFGCFMLDGVSIGVKG-SPEYVRKCCEASLKRLDVDYID 129
+GK LK + R + TK G + +G S +++ + SL+RL +DY+D
Sbjct: 131 RTLGKILKKKEWRRSSYVVTTKI---YWGGQAETERGLSRKHIIEGLRGSLERLQLDYVD 187
Query: 130 LYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVH------PITAV 183
+ + +R+D + +E+ + + ++ +G Y G S SA I A++V P
Sbjct: 188 IVFANRMDPNSPMEEIVRAMTFVINQGMAMYWGTSRWSAMEIMEAYSVARQFNLIPPVCE 247
Query: 184 QMEYSLWTRE-IEDDIIPLCRELGIGIVAYSPLGRGFFAGKAVVESLPSES 233
Q EY L+ RE +E + L ++G+G + +SPL G GK +++P +S
Sbjct: 248 QAEYHLFQREKVETQLPELYHKIGVGSMTWSPLACGLITGK-YTDTVPEKS 297
>sp|Q8NHP1|ARK74_HUMAN Aflatoxin B1 aldehyde reductase member 4 OS=Homo sapiens GN=AKR7L
PE=2 SV=6
Length = 331
Score = 87.0 bits (214), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 59/192 (30%), Positives = 91/192 (47%), Gaps = 13/192 (6%)
Query: 43 VGCSIIKETFNRGITLFDTSDVYGVDHDNEIMVGKALKQLPRD-KIQLATKFGCFMLDGV 101
++ + RG T DT+ +Y I+ G L+ D ++++ATK +
Sbjct: 27 TSAAVTRAFLERGHTEIDTAFLYSDGQSETILGGLGLRMGSSDCRVKIATKANPW----- 81
Query: 102 SIGVKGSPEYVRKCCEASLKRLDVDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYI 161
IG P+ VR E SLKRL +DL+Y H D S +E+T+ +L +EGK +
Sbjct: 82 -IGNSLKPDSVRSQLETSLKRLQCPUVDLFYLHAPDHSAPVEETLRACHQLHQEGKFVEL 140
Query: 162 GLSEASAD------TIRRAHAVHPITAVQMEYSLWTREIEDDIIPLCRELGIGIVAYSPL 215
GLS +A T+ +++ T Q YS TR++E ++ P R G+ AY+PL
Sbjct: 141 GLSNYAAWEVAEICTLCKSNGWILPTVYQGMYSATTRQVETELFPCLRHFGLRFYAYNPL 200
Query: 216 GRGFFAGKAVVE 227
G GK E
Sbjct: 201 AGGLLTGKYKYE 212
>sp|Q9PTM5|KCAB2_XENLA Voltage-gated potassium channel subunit beta-2 OS=Xenopus laevis
GN=kcnab2 PE=2 SV=1
Length = 367
Score = 86.7 bits (213), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 63/221 (28%), Positives = 114/221 (51%), Gaps = 17/221 (7%)
Query: 13 KLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHDNE 72
LG GL VS LG G + ++ E+ ++ ++ GI LFDT++VY E
Sbjct: 41 NLGKSGLRVSCLGLGTWV---TFGGQITDEMAEQLMTLAYDNGINLFDTAEVYAAGKA-E 96
Query: 73 IMVGKALKQ--LPRDKIQLATKFGCFMLDGVSIGVKG-SPEYVRKCCEASLKRLDVDYID 129
+++G +K+ R + + TK G + +G S +++ + +ASL+RL +DY+D
Sbjct: 97 VVLGNIIKKKGWRRSSLVITTKI---FWGGKAETERGLSRKHIIEGLKASLERLQLDYVD 153
Query: 130 LYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVH------PITAV 183
+ + +R D + +E+T+ + ++ +G Y G S S+ I A++V P
Sbjct: 154 VVFANRPDPNTPMEETVRAMTHVINQGMAMYWGTSRWSSMEIMEAYSVARQFNLIPPICE 213
Query: 184 QMEYSLWTRE-IEDDIIPLCRELGIGIVAYSPLGRGFFAGK 223
Q EY ++ RE +E + L ++G+G + +SPL G +GK
Sbjct: 214 QAEYHMFQREKVEVQLPELFHKIGVGAMTWSPLACGIVSGK 254
>sp|Q01752|AAD_PHACH Aryl-alcohol dehydrogenase [NADP(+)] OS=Phanerochaete chrysosporium
PE=1 SV=1
Length = 385
Score = 86.7 bits (213), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 60/227 (26%), Positives = 110/227 (48%), Gaps = 24/227 (10%)
Query: 7 VHVPRVKLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYG 66
+HV ++LG+ + +G G + E ++ +N G DT++VY
Sbjct: 26 LHVSPIQLGAMSIGDKWHPYGMG--------TMDKEASFKLLDAFYNAGGNFIDTANVYQ 77
Query: 67 VDHDNEIMVGKALKQL-PRDKIQLATKFGCFMLDGVSIG-VKGSPEYVRKCCEA------ 118
D +E +G+ ++ RD++ +ATK+ G S + +YV ++
Sbjct: 78 -DETSEEFIGEWMEARGNRDQMVVATKYSLVYKRGASFEEIPQKTQYVGNSLKSMHISVH 136
Query: 119 -SLKRLDVDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAV 177
SL++L YID++Y H D + +IE+ M L LV +GK+ Y+G+S+ A + +A+
Sbjct: 137 DSLRKLRTSYIDIFYVHFWDYTCTIEEVMNGLHNLVAQGKVLYLGVSDTPAWVVSKANNY 196
Query: 178 H------PITAVQMEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRG 218
P + E+++ R++E DIIP+C G+ I ++ L G
Sbjct: 197 ARMAGKTPFVIYEGEWNITMRDMERDIIPMCIHEGMAIAPWNVLCAG 243
>sp|P76234|YEAE_ECOLI Uncharacterized protein YeaE OS=Escherichia coli (strain K12)
GN=yeaE PE=4 SV=1
Length = 284
Score = 85.9 bits (211), Expect = 2e-16, Method: Compositional matrix adjust.
Identities = 56/167 (33%), Positives = 92/167 (55%), Gaps = 15/167 (8%)
Query: 55 GITLFDTSDVYGVDHDNEIMVGKALKQLPRDKIQLATKFGCFMLDGVSIGVKGSPEYVRK 114
G+TL DT+++Y D E +VG+AL L R+K+ L +K + G +
Sbjct: 45 GLTLIDTAEMYA-DGGAEKVVGEALTGL-REKVFLVSKVYPWNAGG---------QKAIN 93
Query: 115 CCEASLKRLDVDYIDLYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSE---ASADTI 171
CEASL+RL+ DY+DLY H S + E+T+ ++KL+ +GKI+ G+S A +
Sbjct: 94 ACEASLRRLNTDYLDLYLLHW-SGSFAFEETVAAMEKLIAQGKIRRWGVSNLDYADMQEL 152
Query: 172 RRAHAVHPITAVQMEYSLWTREIEDDIIPLCRELGIGIVAYSPLGRG 218
+ + Q+ Y L +R IE D++P C++ + ++AYSPL +
Sbjct: 153 WQLPGGNQCATNQVLYHLGSRGIEYDLLPWCQQQQMPVMAYSPLAQA 199
>sp|Q13303|KCAB2_HUMAN Voltage-gated potassium channel subunit beta-2 OS=Homo sapiens
GN=KCNAB2 PE=1 SV=2
Length = 367
Score = 85.1 bits (209), Expect = 4e-16, Method: Compositional matrix adjust.
Identities = 62/221 (28%), Positives = 114/221 (51%), Gaps = 17/221 (7%)
Query: 13 KLGSQGLEVSRLGFGCGGLSGIYNKPLSHEVGCSIIKETFNRGITLFDTSDVYGVDHDNE 72
LG GL VS LG G + ++ E+ ++ ++ GI LFDT++VY E
Sbjct: 41 NLGKSGLRVSCLGLGTWV---TFGGQITDEMAEQLMTLAYDNGINLFDTAEVYAAGKA-E 96
Query: 73 IMVGKALKQ--LPRDKIQLATKFGCFMLDGVSIGVKG-SPEYVRKCCEASLKRLDVDYID 129
+++G +K+ R + + TK G + +G S +++ + +ASL+RL ++Y+D
Sbjct: 97 VVLGNIIKKKGWRRSSLVITTKI---FWGGKAETERGLSRKHIIEGLKASLERLQLEYVD 153
Query: 130 LYYQHRVDTSVSIEDTMGELKKLVEEGKIKYIGLSEASADTIRRAHAVH------PITAV 183
+ + +R D + +E+T+ + ++ +G Y G S S+ I A++V P
Sbjct: 154 VVFANRPDPNTPMEETVRAMTHVINQGMAMYWGTSRWSSMEIMEAYSVARQFNLTPPICE 213
Query: 184 QMEYSLWTRE-IEDDIIPLCRELGIGIVAYSPLGRGFFAGK 223
Q EY ++ RE +E + L ++G+G + +SPL G +GK
Sbjct: 214 QAEYHMFQREKVEVQLPELFHKIGVGAMTWSPLACGIVSGK 254
Database: swissprot
Posted date: Mar 23, 2013 2:32 AM
Number of letters in database: 191,569,459
Number of sequences in database: 539,616
Lambda K H
0.320 0.139 0.409
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 92,306,505
Number of Sequences: 539616
Number of extensions: 3944955
Number of successful extensions: 10811
Number of sequences better than 100.0: 50
Number of HSP's better than 100.0 without gapping: 118
Number of HSP's successfully gapped in prelim test: 138
Number of HSP's that attempted gapping in prelim test: 10435
Number of HSP's gapped (non-prelim): 271
length of query: 242
length of database: 191,569,459
effective HSP length: 114
effective length of query: 128
effective length of database: 130,053,235
effective search space: 16646814080
effective search space used: 16646814080
T: 11
A: 40
X1: 16 ( 7.4 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 41 (21.8 bits)
S2: 59 (27.3 bits)