BLASTX nr result
ID: Mentha24_contig00026250
seq
BLASTX 2.2.25 [Feb-01-2011]
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.
Query= Mentha24_contig00026250
(758 letters)
Database: ./nr
38,876,450 sequences; 13,856,398,315 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
gb|AAR09603.1| O-methyltransferase [Mentha x piperita] 260 4e-67
gb|EYU30782.1| hypothetical protein MIMGU_mgv1a021078mg [Mimulus... 245 1e-62
ref|XP_003557042.1| PREDICTED: trans-resveratrol di-O-methyltran... 239 8e-61
gb|AGQ21572.1| flavone 8-O-methyltransferase [Ocimum basilicum] 238 2e-60
ref|XP_003544912.1| PREDICTED: trans-resveratrol di-O-methyltran... 237 3e-60
gb|ACU19152.1| unknown [Glycine max] 236 8e-60
ref|XP_003544914.1| PREDICTED: trans-resveratrol di-O-methyltran... 234 2e-59
ref|XP_002326036.2| hypothetical protein POPTR_0019s12290g [Popu... 230 4e-58
ref|XP_007142076.1| hypothetical protein PHAVU_008G250600g [Phas... 228 1e-57
ref|XP_007132751.1| hypothetical protein PHAVU_011G1221001g, par... 228 1e-57
ref|XP_007132709.1| hypothetical protein PHAVU_011G118100g [Phas... 228 2e-57
ref|XP_004235335.1| PREDICTED: trans-resveratrol di-O-methyltran... 228 2e-57
ref|XP_007142077.1| hypothetical protein PHAVU_008G250700g [Phas... 227 3e-57
ref|XP_007043718.1| Flavonoid o-methyltransferase related [Theob... 227 3e-57
ref|XP_006371493.1| hypothetical protein POPTR_0019s12280g [Popu... 226 5e-57
ref|XP_002277927.2| PREDICTED: 8-hydroxyquercetin 8-O-methyltran... 226 5e-57
ref|XP_002278211.1| PREDICTED: 8-hydroxyquercetin 8-O-methyltran... 226 7e-57
emb|CAN61955.1| hypothetical protein VITISV_020020 [Vitis vinifera] 226 9e-57
emb|CAN69333.1| hypothetical protein VITISV_003273 [Vitis vinifera] 225 1e-56
ref|XP_006469135.1| PREDICTED: trans-resveratrol di-O-methyltran... 225 1e-56
>gb|AAR09603.1| O-methyltransferase [Mentha x piperita]
Length = 361
Score = 260 bits (664), Expect = 4e-67
Identities = 128/220 (58%), Positives = 161/220 (73%), Gaps = 6/220 (2%)
Frame = +1
Query: 4 ECPSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXX 183
ECPSPF K+G +WE+AG ++ WN+ FN+AMA+DA+ V+SILVK+C+H+F+GL+
Sbjct: 142 ECPSPFEFKHGRSLWEYAGIEERWNQLFNQAMANDAKLVTSILVKECRHIFQGLESLVDV 201
Query: 184 XXXXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWI 363
FPGLKA+VLDLP VVA L ENLR+VSGDMFE IP ADAV LKWI
Sbjct: 202 GGGAGTVAKVVADAFPGLKAVVLDLPHVVADLATSENLRYVSGDMFEDIPRADAVLLKWI 261
Query: 364 MHDWSGEDCIKILGKCKEAIV----HSGGKVIIVDMVV--EKRGHVAAETQLLMDMVLMA 525
+H+WS E+CIKIL KCKEAI ++GGKVI++DM++ EK+ H ETQLL D+++M
Sbjct: 262 LHNWSDEECIKILEKCKEAITPSKNNNGGKVIVIDMILKDEKQHHKGTETQLLFDVLMMT 321
Query: 526 DFAGKERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
GKERTEKEWA LF AAGF +KI P+L LRSVIE+FP
Sbjct: 322 ALTGKERTEKEWANLFFAAGFKTYKIHPVLRLRSVIEIFP 361
>gb|EYU30782.1| hypothetical protein MIMGU_mgv1a021078mg [Mimulus guttatus]
Length = 359
Score = 245 bits (625), Expect = 1e-62
Identities = 124/221 (56%), Positives = 153/221 (69%), Gaps = 6/221 (2%)
Frame = +1
Query: 1 DECPSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXX 180
DE PF+TK G+ +E+A + WN+ FNE MASDARFV+S+L+++ K VFEGL
Sbjct: 139 DEISCPFVTKYGMGFFEYARNKERWNKVFNEGMASDARFVNSLLIREYKQVFEGLDSIVD 198
Query: 181 XXXXXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKW 360
FPGLK VL+LP V+AGLE +NL FV GDMF FIP A AVF KW
Sbjct: 199 VGGGTGAAAKAIVSAFPGLKCTVLELPHVIAGLEGTDNLNFVGGDMFNFIPHAHAVFFKW 258
Query: 361 IMHDWSGEDCIKILGKCKEAIV----HSGGKVIIVDMVV--EKRGHVAAETQLLMDMVLM 522
I HDW+ E+CIKIL KCKEAI + GKVIIV++VV +K A ETQLL DM++M
Sbjct: 259 IFHDWTDEECIKILEKCKEAITSGDNKTDGKVIIVEIVVDDQKENQKATETQLLFDMLMM 318
Query: 523 ADFAGKERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
+ GKERTEKEWA LF +AGF+++KITP+LGLRS+IEVFP
Sbjct: 319 IEVTGKERTEKEWANLFFSAGFSNYKITPVLGLRSIIEVFP 359
>ref|XP_003557042.1| PREDICTED: trans-resveratrol di-O-methyltransferase-like [Glycine
max]
Length = 358
Score = 239 bits (610), Expect = 8e-61
Identities = 116/216 (53%), Positives = 155/216 (71%), Gaps = 4/216 (1%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T +G+ +W++AG D N FN+AMASDARFV+S++++ CK VF GL+
Sbjct: 143 PTPFETAHGMMLWDYAGADPKLNNLFNDAMASDARFVTSLVIEKCKGVFMGLESLVDVGG 202
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP ++ IV DLP VV+GL+ ENL++VSGDMFE IPPADA+ LKWI+H
Sbjct: 203 GTGTMAKAIAKSFPRVECIVFDLPHVVSGLKGSENLKYVSGDMFEAIPPADAILLKWILH 262
Query: 370 DWSGEDCIKILGKCKEAIVHSG--GKVIIVDMVV--EKRGHVAAETQLLMDMVLMADFAG 537
DW+ E+C+ IL KCKEAI G GKVII+DMVV EKR + ETQL DM++M G
Sbjct: 263 DWNDEECVDILKKCKEAITRKGKEGKVIIIDMVVENEKRDDESVETQLFFDMLMMVLVTG 322
Query: 538 KERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
KER++KEWAKL ++AG+N++KITP+ GLRS+IE++P
Sbjct: 323 KERSKKEWAKLISSAGYNNYKITPVFGLRSLIEIYP 358
>gb|AGQ21572.1| flavone 8-O-methyltransferase [Ocimum basilicum]
Length = 359
Score = 238 bits (606), Expect = 2e-60
Identities = 124/221 (56%), Positives = 151/221 (68%), Gaps = 6/221 (2%)
Frame = +1
Query: 1 DECPSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXX 180
+ECPSP K+ I EFA + W+ FNE MA+DAR V SIL K+ + VFEGL+
Sbjct: 139 NECPSPLEFKHEKSIREFAENNQRWSLLFNEGMANDARLVGSILAKESRKVFEGLETMVD 198
Query: 181 XXXXXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKW 360
FPG+K IVLDLP VV+GL+ NLR+V GDMF +PPADAVFLKW
Sbjct: 199 VGGGTGMVSKAIVDAFPGMKGIVLDLPYVVSGLKGSGNLRYVGGDMFHSVPPADAVFLKW 258
Query: 361 IMHDWSGEDCIKILGKCKEAIVHS----GGKVIIVDMVV--EKRGHVAAETQLLMDMVLM 522
I+H+WS ++CIKIL KCKEAI S GGKVIIVDM++ EK+ A ETQL DM++M
Sbjct: 259 ILHNWSDDECIKILEKCKEAITTSKNMKGGKVIIVDMILGYEKQQDEAVETQLFFDMMMM 318
Query: 523 ADFAGKERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
GKERTE+EWAK+F AAGF +KI P+LGLRS+IEVFP
Sbjct: 319 TTLTGKERTEQEWAKIFFAAGFKTYKIYPLLGLRSLIEVFP 359
>ref|XP_003544912.1| PREDICTED: trans-resveratrol di-O-methyltransferase-like isoform 1
[Glycine max]
Length = 358
Score = 237 bits (605), Expect = 3e-60
Identities = 116/216 (53%), Positives = 154/216 (71%), Gaps = 4/216 (1%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T +G W++AG D N FN+AMASDARFV+S++++ CK VF GL+
Sbjct: 143 PTPFETAHGKMFWDYAGADPKLNHLFNDAMASDARFVTSLVIEKCKGVFMGLESLVDVGG 202
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP ++ IV DLP VV+GL+ ENL++V+GDMFE IPPADA+ LKWI+H
Sbjct: 203 GTGTMAKAIAKSFPRVECIVFDLPHVVSGLKGSENLKYVAGDMFEAIPPADAILLKWILH 262
Query: 370 DWSGEDCIKILGKCKEAIVHSG--GKVIIVDMVV--EKRGHVAAETQLLMDMVLMADFAG 537
DW+ E+C+ IL KCKEAI G GKVII+DMVV EKR + ETQL DM++M G
Sbjct: 263 DWNDEECVDILKKCKEAITRKGKEGKVIIIDMVVENEKRDDESVETQLFFDMLMMVLVTG 322
Query: 538 KERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
KER++KEWAKL ++AG+N++KITP+LGLRS+IE++P
Sbjct: 323 KERSKKEWAKLISSAGYNNYKITPVLGLRSLIEIYP 358
>gb|ACU19152.1| unknown [Glycine max]
Length = 282
Score = 236 bits (601), Expect = 8e-60
Identities = 115/216 (53%), Positives = 154/216 (71%), Gaps = 4/216 (1%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T +G+ +W++AG D N FN+AMASDARFV+S++++ CK VF GL+
Sbjct: 67 PTPFETAHGMMLWDYAGADPKLNNLFNDAMASDARFVTSLVIEKCKGVFMGLESLVDVGG 126
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP ++ IV DLP VV+GL+ ENL++VSGDMFE IPPA A+ LKWI+H
Sbjct: 127 GTGTMAKAIAKSFPRVECIVFDLPHVVSGLKGSENLKYVSGDMFEAIPPAYAILLKWILH 186
Query: 370 DWSGEDCIKILGKCKEAIVHSG--GKVIIVDMVV--EKRGHVAAETQLLMDMVLMADFAG 537
DW+ E+C+ IL KCKEAI G GKVII+DMVV EKR + ETQL DM++M G
Sbjct: 187 DWNDEECVDILKKCKEAITRKGKEGKVIIIDMVVENEKRDDESVETQLFFDMLMMVLVTG 246
Query: 538 KERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
KER++KEWAKL ++AG+N++KITP+ GLRS+IE++P
Sbjct: 247 KERSKKEWAKLISSAGYNNYKITPVFGLRSLIEIYP 282
>ref|XP_003544914.1| PREDICTED: trans-resveratrol di-O-methyltransferase-like isoform X1
[Glycine max]
Length = 358
Score = 234 bits (597), Expect = 2e-59
Identities = 113/215 (52%), Positives = 155/215 (72%), Gaps = 4/215 (1%)
Frame = +1
Query: 13 SPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXXX 192
+PF T +G+ +W++AG D N FN+AMASDARFV+S++++ CK +F GL+
Sbjct: 144 TPFETAHGMMLWDYAGADPKHNNLFNDAMASDARFVTSLVIEKCKGMFMGLESLVDVGGG 203
Query: 193 XXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMHD 372
FP ++ IV DLP VV+GL+ ENL++V+GDMFE IPPADA+ LKWI+HD
Sbjct: 204 TGTMAKAIAKSFPRVECIVFDLPHVVSGLKGSENLKYVAGDMFEAIPPADAILLKWILHD 263
Query: 373 WSGEDCIKILGKCKEAIVHSG--GKVIIVDMVV--EKRGHVAAETQLLMDMVLMADFAGK 540
W+ ++C+ IL KCKEAI G GKVII+DMVV EKR + ETQL DM++M GK
Sbjct: 264 WNDKECVDILKKCKEAITRKGKEGKVIIIDMVVENEKRDDESVETQLFFDMLMMVLVTGK 323
Query: 541 ERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
ER++KEWAKL ++AG+N++KITP+LGLRS+IE++P
Sbjct: 324 ERSKKEWAKLISSAGYNNYKITPVLGLRSLIEIYP 358
>ref|XP_002326036.2| hypothetical protein POPTR_0019s12290g [Populus trichocarpa]
gi|550317347|gb|EEF00418.2| hypothetical protein
POPTR_0019s12290g [Populus trichocarpa]
Length = 357
Score = 230 bits (587), Expect = 4e-58
Identities = 119/218 (54%), Positives = 146/218 (66%), Gaps = 3/218 (1%)
Frame = +1
Query: 1 DECPSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXX 180
++ PS F T + WE+AG + N FNEAMASDAR VSS+LV +CK VFEGL
Sbjct: 140 NDAPSSFYTAHQRTSWEYAGHETELNHFFNEAMASDARLVSSVLVNECKGVFEGLNSLVD 199
Query: 181 XXXXXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKW 360
F L V DLP VVAGLE ENL+++SGDMFE IP ADA+ LKW
Sbjct: 200 VGGGTGTVAKAIAKEFQHLDCTVFDLPHVVAGLEGSENLKYLSGDMFEAIPQADAILLKW 259
Query: 361 IMHDWSGEDCIKILGKCKEAIV-HSGGKVIIVDMVVEKRGHV--AAETQLLMDMVLMADF 531
I+HDW+ E+C+KIL +CKEAI GGK+II+DMVVE V + ETQL DM++M
Sbjct: 260 ILHDWNDEECVKILKQCKEAIKGREGGKLIIIDMVVENNKEVEGSTETQLFFDMLMMILV 319
Query: 532 AGKERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
GKER EKEWAKLF AGF+++KI P+LGLRS+IEV+P
Sbjct: 320 TGKERNEKEWAKLFTDAGFSNYKINPVLGLRSLIEVYP 357
>ref|XP_007142076.1| hypothetical protein PHAVU_008G250600g [Phaseolus vulgaris]
gi|561015209|gb|ESW14070.1| hypothetical protein
PHAVU_008G250600g [Phaseolus vulgaris]
Length = 357
Score = 228 bits (582), Expect = 1e-57
Identities = 111/219 (50%), Positives = 152/219 (69%), Gaps = 4/219 (1%)
Frame = +1
Query: 1 DECPSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXX 180
++ P+ F +G WE+AG D +N FN+AMASDA+ V+S++++ CK VF GL+
Sbjct: 139 NDSPTTFEMAHGKPFWEYAGSDPRFNILFNDAMASDAQLVTSVVIEKCKGVFMGLESLVD 198
Query: 181 XXXXXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKW 360
FP L+ V DLP VV+GL+ ENL++V GDMFE IPPADA+ LKW
Sbjct: 199 VGGGTGTMGKAISKSFPQLECTVFDLPHVVSGLQGSENLKYVGGDMFEAIPPADAILLKW 258
Query: 361 IMHDWSGEDCIKILGKCKEAIVHSG--GKVIIVDMVVEK--RGHVAAETQLLMDMVLMAD 528
I+HDWS E+C+KIL KCKEAI G GKVII+DMVV+K + + ETQL D+++M
Sbjct: 259 ILHDWSDEECVKILKKCKEAISRKGKEGKVIIIDMVVDKEMKDDESFETQLFFDLMMMVL 318
Query: 529 FAGKERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
F GKER +KEW KL ++AGFN++KITP++G+RS+IE++P
Sbjct: 319 FNGKERNKKEWVKLISSAGFNNYKITPVMGIRSLIEIYP 357
>ref|XP_007132751.1| hypothetical protein PHAVU_011G1221001g, partial [Phaseolus
vulgaris] gi|561005751|gb|ESW04745.1| hypothetical
protein PHAVU_011G1221001g, partial [Phaseolus vulgaris]
Length = 214
Score = 228 bits (582), Expect = 1e-57
Identities = 110/214 (51%), Positives = 150/214 (70%), Gaps = 2/214 (0%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T + + IW++AG+D N+ FN+AMASDA+ VS ++++ C VF+GL+
Sbjct: 4 PTPFHTAHEMKIWDYAGRDPKLNQLFNDAMASDAQLVSKVVIERCSGVFKGLESLVDVGG 63
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP + V DLP VVA L+ CENL++V GDMFE +PPADAV LKWI+H
Sbjct: 64 GTGIMAKAIAKSFPHIDCTVFDLPHVVANLKGCENLKYVGGDMFESVPPADAVLLKWILH 123
Query: 370 DWSGEDCIKILGKCKEAIVHSGGKVIIVDMVV--EKRGHVAAETQLLMDMVLMADFAGKE 543
DW+ E C+KIL KCKE I KVI++DMVV E+ + ET+LL+DMV+M + GKE
Sbjct: 124 DWNDEQCVKILKKCKEGIKR---KVIVIDMVVESEEEDFESTETKLLVDMVVMVLYPGKE 180
Query: 544 RTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
RTEKEWAK+ +AGF+D+KITP++GLRS+IE++P
Sbjct: 181 RTEKEWAKIIFSAGFSDYKITPVVGLRSLIEIYP 214
>ref|XP_007132709.1| hypothetical protein PHAVU_011G118100g [Phaseolus vulgaris]
gi|561005709|gb|ESW04703.1| hypothetical protein
PHAVU_011G118100g [Phaseolus vulgaris]
Length = 352
Score = 228 bits (581), Expect = 2e-57
Identities = 110/214 (51%), Positives = 150/214 (70%), Gaps = 2/214 (0%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T + + IW++AG+D N+ FN+AMASDA+ VS+++++ C VF+GL+
Sbjct: 142 PTPFHTAHEMKIWDYAGRDPKLNQLFNDAMASDAQLVSNVVIERCSGVFKGLESLVDVGG 201
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP + V DLP VVA L+ CENL++V GDMFE +PPADAV LKWI+H
Sbjct: 202 GTGIMAKAIAKSFPHIDCTVFDLPHVVANLKGCENLKYVGGDMFESVPPADAVLLKWILH 261
Query: 370 DWSGEDCIKILGKCKEAIVHSGGKVIIVDMVV--EKRGHVAAETQLLMDMVLMADFAGKE 543
DW+ E C+KIL KCKE I KVI++DMVV E+ + ET+LL+DMV+M + GKE
Sbjct: 262 DWNDEQCVKILKKCKEGIKR---KVIVIDMVVESEEEDFESTETKLLVDMVVMVLYPGKE 318
Query: 544 RTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
RTEKEWAK+ +AGF+D+KITP++GLRS IE++P
Sbjct: 319 RTEKEWAKIIFSAGFSDYKITPVVGLRSFIEIYP 352
>ref|XP_004235335.1| PREDICTED: trans-resveratrol di-O-methyltransferase-like [Solanum
lycopersicum]
Length = 445
Score = 228 bits (581), Expect = 2e-57
Identities = 114/219 (52%), Positives = 153/219 (69%), Gaps = 4/219 (1%)
Frame = +1
Query: 1 DECPSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXX 180
+E +PF T +G ++E+AG + N FNEAM DAR + S+L+K+ K VFEGLK
Sbjct: 227 NEDSTPFATAHGKPLFEYAGDEQRLNNLFNEAMGCDARLIMSVLIKNGKGVFEGLKSLVD 286
Query: 181 XXXXXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKW 360
FP LK V DLP VV GLE +NL +++GDMF+F+P ADA+ LKW
Sbjct: 287 VGGGIGTVAKAISNAFPELKCSVFDLPHVVEGLEGGKNLTYIAGDMFKFVPSADAILLKW 346
Query: 361 IMHDWSGEDCIKILGKCKEAI--VHSGGKVIIVDMVV--EKRGHVAAETQLLMDMVLMAD 528
I+HDWS +DC+KIL KCKEAI +GGKVI++D+V+ +KR + + ETQL D+++M
Sbjct: 347 ILHDWSDKDCVKILKKCKEAIPSKENGGKVIVIDIVIDNQKRDNKSFETQLFSDVLMMVH 406
Query: 529 FAGKERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
+GKER E+EWAKLF+ AGF+D+KI+PILGLRSVIEV+P
Sbjct: 407 VSGKERNEQEWAKLFSNAGFSDYKISPILGLRSVIEVYP 445
>ref|XP_007142077.1| hypothetical protein PHAVU_008G250700g [Phaseolus vulgaris]
gi|561015210|gb|ESW14071.1| hypothetical protein
PHAVU_008G250700g [Phaseolus vulgaris]
Length = 357
Score = 227 bits (579), Expect = 3e-57
Identities = 112/216 (51%), Positives = 147/216 (68%), Gaps = 4/216 (1%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+ F G WE+AG D N FN+AMASDA+ V+S++++ CK VF GL+
Sbjct: 142 PTTFEMAQGKPFWEYAGSDPRINSLFNDAMASDAQLVTSVVIEKCKRVFMGLESLVDVGG 201
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP L+ V DLP VV+GL+ ENL++V GDMFE IPPADA+ LKWI+H
Sbjct: 202 GTGTMGKAIAKSFPQLECTVFDLPHVVSGLQGSENLKYVGGDMFEAIPPADAILLKWILH 261
Query: 370 DWSGEDCIKILGKCKEAIVHSG--GKVIIVDMVVEK--RGHVAAETQLLMDMVLMADFAG 537
DWS ED + IL KCKEA+ G GKVII+DMVV+K + + ETQL DM++M F G
Sbjct: 262 DWSDEDSVNILKKCKEALSRKGKEGKVIIIDMVVDKEMKDDESFETQLFFDMLMMVFFTG 321
Query: 538 KERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
KER +KEW KLF++AGFN++KITP++GLRS+IE++P
Sbjct: 322 KERNKKEWVKLFSSAGFNNYKITPVVGLRSLIEIYP 357
>ref|XP_007043718.1| Flavonoid o-methyltransferase related [Theobroma cacao]
gi|508707653|gb|EOX99549.1| Flavonoid
o-methyltransferase related [Theobroma cacao]
Length = 364
Score = 227 bits (579), Expect = 3e-57
Identities = 114/218 (52%), Positives = 146/218 (66%), Gaps = 6/218 (2%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T +G W++ G D + FNE MASDAR VSSIL+ C+ VF+GL
Sbjct: 147 PTPFDTAHGRTFWDYGGHDPMLSHFFNEGMASDARLVSSILIHKCEGVFQGLNSMVDVGG 206
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP L+ V DLP+VVAGL+D NL++V GDMFE +P ADAV LKWI+H
Sbjct: 207 GIGTVAKAISDAFPHLECTVFDLPRVVAGLQDRGNLKYVGGDMFEAVPAADAVLLKWILH 266
Query: 370 DWSGEDCIKILGKCKEAIVH--SGGKVIIVDMVVEKRGH----VAAETQLLMDMVLMADF 531
DW+ E+C+KIL +CKEAI GGK II+DMV+ ++ H + ETQL DM++M
Sbjct: 267 DWNDEECVKILKRCKEAISRGGKGGKAIIIDMVLTEKNHKVNDASIETQLFFDMLMMVLV 326
Query: 532 AGKERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
GKER E+EWA LF AAGF+D+KITPI+GLRS+IEV+P
Sbjct: 327 TGKERNEEEWATLFLAAGFSDYKITPIMGLRSLIEVYP 364
>ref|XP_006371493.1| hypothetical protein POPTR_0019s12280g [Populus trichocarpa]
gi|550317346|gb|ERP49290.1| hypothetical protein
POPTR_0019s12280g [Populus trichocarpa]
Length = 283
Score = 226 bits (577), Expect = 5e-57
Identities = 114/215 (53%), Positives = 145/215 (67%), Gaps = 3/215 (1%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T +G W++ G + N FN+AMASDAR V+ +LV +CK VFEGL
Sbjct: 69 PTPFDTAHGRTFWDYGGHEPMLNHFFNDAMASDARLVTRVLVNECKEVFEGLGSLVDVGG 128
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP L V DLP VVA L+ ENL++V GDMFE IPPAD + LKWI+H
Sbjct: 129 GTGTVAKSLAKAFPHLDCTVFDLPHVVADLQGSENLKYVGGDMFEAIPPADGIVLKWILH 188
Query: 370 DWSGEDCIKILGKCKEAIV-HSGGKVIIVDMVVE--KRGHVAAETQLLMDMVLMADFAGK 540
DW+ E+C++IL KCKEAI GGKV+I+DM++E K + ETQ+ DM++M G+
Sbjct: 189 DWNDEECVRILKKCKEAIKDREGGKVMIIDMMMENQKGEDESIETQIFFDMLMMILVTGQ 248
Query: 541 ERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
ER EKEWAKLF+ AGF++FKITPILGLRS+IEVFP
Sbjct: 249 ERNEKEWAKLFSDAGFSNFKITPILGLRSIIEVFP 283
>ref|XP_002277927.2| PREDICTED: 8-hydroxyquercetin 8-O-methyltransferase isoform 2
[Vitis vinifera]
Length = 357
Score = 226 bits (577), Expect = 5e-57
Identities = 118/216 (54%), Positives = 147/216 (68%), Gaps = 4/216 (1%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T + +W++AG + N FNEAMASDAR V+S+LVK+ K VFEGL
Sbjct: 142 PTPFDTAHERTLWDYAGHEPQLNYFFNEAMASDARLVTSVLVKEGKGVFEGLNSLVDVGG 201
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP LK VLDLP VVAGL+ +NL + +GDMFE IPPADA+ LKWI+H
Sbjct: 202 GTGTVAKAIANAFPHLKCTVLDLPHVVAGLQGSKNLNYFAGDMFEAIPPADAILLKWILH 261
Query: 370 DWSGEDCIKILGKCKEAI--VHSGGKVIIVDMVV--EKRGHVAAETQLLMDMVLMADFAG 537
DWS E+C+KIL +C+EAI GGKVII+DM+V +K + ETQL DM++M G
Sbjct: 262 DWSDEECVKILKRCREAIPSKERGGKVIIIDMMVKNQKGDCKSRETQLFFDMLMMVLVTG 321
Query: 538 KERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
KER EKEW KLF AGF+ +KITPILGLRS+IEV+P
Sbjct: 322 KEREEKEWEKLFLEAGFSHYKITPILGLRSLIEVYP 357
>ref|XP_002278211.1| PREDICTED: 8-hydroxyquercetin 8-O-methyltransferase [Vitis
vinifera]
Length = 357
Score = 226 bits (576), Expect = 7e-57
Identities = 114/216 (52%), Positives = 145/216 (67%), Gaps = 4/216 (1%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T +G W++ G + N FNEAMASDAR V+S+L+KDCK VFEGL
Sbjct: 142 PTPFDTAHGRTFWDYGGHEPKINNFFNEAMASDARLVTSVLIKDCKGVFEGLNSLVDVGG 201
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP L V DLP VVAGLE +NL ++ GDMF+ IPPADA+ LKWI+H
Sbjct: 202 GTGTVAKAIANAFPHLNCTVFDLPHVVAGLEGSKNLNYLGGDMFKGIPPADAILLKWILH 261
Query: 370 DWSGEDCIKILGKCKEAI--VHSGGKVIIVDMVVE--KRGHVAAETQLLMDMVLMADFAG 537
DW+ E+C+KIL +C++AI GGKVII+DM++E K + ETQL DM++M G
Sbjct: 262 DWNDEECVKILQQCRQAIPSKEKGGKVIIIDMMMENQKGDDESMETQLFFDMLMMILVTG 321
Query: 538 KERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
+ER EKEW KLF AGF+ +KITPILGLRS+IEV+P
Sbjct: 322 QERNEKEWEKLFLDAGFSGYKITPILGLRSLIEVYP 357
>emb|CAN61955.1| hypothetical protein VITISV_020020 [Vitis vinifera]
Length = 357
Score = 226 bits (575), Expect = 9e-57
Identities = 114/216 (52%), Positives = 144/216 (66%), Gaps = 4/216 (1%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T +G W++ G + N FNEAMASDAR V+S L+KDCK VFEGL
Sbjct: 142 PTPFDTAHGXTFWDYGGHEPKJNNFFNEAMASDARLVTSXLIKDCKGVFEGLNSLVDVGG 201
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP L V DLP VVAGLE +NL ++ GDMF+ IPPADA+ LKWI+H
Sbjct: 202 GTGTVAKAIANAFPHLNCTVFDLPHVVAGLEGSKNLNYLGGDMFKGIPPADAILLKWILH 261
Query: 370 DWSGEDCIKILGKCKEAI--VHSGGKVIIVDMVVE--KRGHVAAETQLLMDMVLMADFAG 537
DW+ E+C+KIL +C++AI GGKVII+DM++E K + ETQL DM++M G
Sbjct: 262 DWNDEECVKILQQCRQAIPSKEKGGKVIIIDMMMENQKGDDESMETQLFFDMLMMILVTG 321
Query: 538 KERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
+ER EKEW KLF AGF+ +KITPILGLRS+IEV+P
Sbjct: 322 QERNEKEWEKLFLDAGFSGYKITPILGLRSLIEVYP 357
>emb|CAN69333.1| hypothetical protein VITISV_003273 [Vitis vinifera]
Length = 350
Score = 225 bits (574), Expect = 1e-56
Identities = 117/216 (54%), Positives = 146/216 (67%), Gaps = 4/216 (1%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T + +W++AG + N FNEAMASDAR V+S+LVK+ K VFEGL
Sbjct: 135 PTPFDTAHERTLWDYAGHEPQLNYXFNEAMASDARLVTSVLVKEGKGVFEGLNSLVDVGG 194
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLEDCENLRFVSGDMFEFIPPADAVFLKWIMH 369
FP L VLDLP VVAGL+ +NL + +GDMFE IPPADA+ LKWI+H
Sbjct: 195 GTGTVAKAIANAFPHLNCTVLDLPHVVAGLQGSKNLNYFAGDMFEAIPPADAILLKWILH 254
Query: 370 DWSGEDCIKILGKCKEAI--VHSGGKVIIVDMVV--EKRGHVAAETQLLMDMVLMADFAG 537
DWS E+C+KIL +C+EAI GGKVII+DM+V +K + ETQL DM++M G
Sbjct: 255 DWSDEECVKILKRCREAIPSKERGGKVIIIDMMVKNQKGDCKSRETQLFFDMLMMVLVTG 314
Query: 538 KERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
KER EKEW KLF AGF+ +KITPILGLRS+IEV+P
Sbjct: 315 KEREEKEWEKLFLEAGFSHYKITPILGLRSLIEVYP 350
>ref|XP_006469135.1| PREDICTED: trans-resveratrol di-O-methyltransferase-like [Citrus
sinensis]
Length = 402
Score = 225 bits (573), Expect = 1e-56
Identities = 117/217 (53%), Positives = 143/217 (65%), Gaps = 5/217 (2%)
Frame = +1
Query: 10 PSPFITKNGIDIWEFAGKDDSWNRRFNEAMASDARFVSSILVKDCKHVFEGLKXXXXXXX 189
P+PF T +G +WE+AG + N FNEAMASDAR + +++ CK VFEGL
Sbjct: 186 PTPFDTAHGKSLWEYAGDEPKINNFFNEAMASDARLATRVVIHKCKDVFEGLNSLVDVGG 245
Query: 190 XXXXXXXXXXXXFPGLKAIVLDLPQVVAGLE-DCENLRFVSGDMFEFIPPADAVFLKWIM 366
FP L+ DLP VV GLE D NL+++ GDMFE IPPADAV KWI+
Sbjct: 246 GTGTVAKAIAKAFPNLECTDFDLPHVVNGLESDLANLKYIGGDMFEAIPPADAVLFKWIL 305
Query: 367 HDWSGEDCIKILGKCKEAIVHSG--GKVIIVDMVVE--KRGHVAAETQLLMDMVLMADFA 534
HDW+ E+C+KIL KCKEAI G GKVII+DM+ E K + ETQL DM++M
Sbjct: 306 HDWNDEECVKILKKCKEAITSDGKKGKVIIIDMMRENKKGDSESIETQLFFDMLMMVLVT 365
Query: 535 GKERTEKEWAKLFAAAGFNDFKITPILGLRSVIEVFP 645
G ER EKEWAKLFA AGF+D+KITPILGLRS+IEV+P
Sbjct: 366 GTERDEKEWAKLFADAGFSDYKITPILGLRSLIEVYP 402