Miyakogusa Predicted Gene
- Lj6g3v2218180.1
BLASTP 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.
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= Lj6g3v2218180.1 Non Chatacterized Hit- tr|I1MDX1|I1MDX1_SOYBN
Uncharacterized protein (Fragment) OS=Glycine max
PE=4,81.43,0,ABHYDROLASE,Alpha/beta hydrolase fold-1;
alpha/beta-Hydrolases,NULL; no description,NULL;
Abhydrolas,CUFF.60829.1
(237 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma15g05930.1 368 e-102
Glyma08g19060.1 358 3e-99
Glyma05g31110.1 288 2e-78
Glyma08g14300.1 273 8e-74
Glyma18g01970.1 263 1e-70
Glyma13g01770.1 239 2e-63
Glyma04g05970.1 155 4e-38
Glyma06g05980.1 148 4e-36
Glyma06g05970.1 147 1e-35
Glyma16g25350.1 125 3e-29
Glyma16g25330.1 122 3e-28
Glyma02g06300.1 116 2e-26
Glyma14g35050.1 114 1e-25
Glyma04g02900.2 51 8e-07
Glyma04g02900.1 51 8e-07
>Glyma15g05930.1
Length = 290
Score = 368 bits (944), Expect = e-102, Method: Compositional matrix adjust.
Identities = 171/210 (81%), Positives = 190/210 (90%)
Query: 10 KLSRRISFTASRDWLYRHSFAVAGLRSVSTDLSDGTTMHCWIPKSHKPCKPTLVLIHGFG 69
KLS+ ISFTASRDWLYRH FA AGLRSV+TDL +GTTMHCW+PK HKPCKP+LVL+HGFG
Sbjct: 1 KLSKCISFTASRDWLYRHLFASAGLRSVATDLGEGTTMHCWVPKMHKPCKPSLVLVHGFG 60
Query: 70 ANAMWQFGELIRHFITHFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRMS 129
ANAMWQ+GE IRHF+ HFN+YVPDL+FFG SFT RPER+ESFQA C+VK+M++ GVH+MS
Sbjct: 61 ANAMWQYGEHIRHFMGHFNVYVPDLVFFGESFTSRPERSESFQAECVVKMMEAHGVHKMS 120
Query: 130 LVGISYGGFVGYSVAAQFPEVVEKLVLCCTGVCLEEKDMENGLFAVSNLDEACSILLPQT 189
LVGISYGGFVGY VAA FPEVVEK+VLCC GVCLEE DMENGLF VSNLDEA SILLPQT
Sbjct: 121 LVGISYGGFVGYRVAAHFPEVVEKIVLCCAGVCLEEVDMENGLFRVSNLDEASSILLPQT 180
Query: 190 PDKLRALMKLSFVKPARGVPTLFLEDFIHV 219
PDKLR LMKLSFV+PARGVPT FL+DFI V
Sbjct: 181 PDKLRELMKLSFVRPARGVPTWFLQDFIQV 210
>Glyma08g19060.1
Length = 300
Score = 358 bits (918), Expect = 3e-99, Method: Compositional matrix adjust.
Identities = 167/210 (79%), Positives = 187/210 (89%)
Query: 10 KLSRRISFTASRDWLYRHSFAVAGLRSVSTDLSDGTTMHCWIPKSHKPCKPTLVLIHGFG 69
KLS+ ISFTASRDWLYRH FA AGLRSV+TDL +GT +HCW+PK HKPCKP+LVLIHGFG
Sbjct: 1 KLSKCISFTASRDWLYRHLFAAAGLRSVATDLGEGTIVHCWVPKMHKPCKPSLVLIHGFG 60
Query: 70 ANAMWQFGELIRHFITHFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRMS 129
ANAMWQ+GE IR F+ HFN+YVPDL+FFG SFTLR ER+E FQA C+VK+M++ GVH+MS
Sbjct: 61 ANAMWQYGEHIRLFMGHFNVYVPDLVFFGESFTLRAERSEYFQAECMVKMMEAHGVHKMS 120
Query: 130 LVGISYGGFVGYSVAAQFPEVVEKLVLCCTGVCLEEKDMENGLFAVSNLDEACSILLPQT 189
LVGISYGGFVGY VAA FP+VVEK+VLCC GVCLEE DMENGLF VSNLDEA SILLPQT
Sbjct: 121 LVGISYGGFVGYRVAAHFPDVVEKIVLCCAGVCLEEVDMENGLFRVSNLDEASSILLPQT 180
Query: 190 PDKLRALMKLSFVKPARGVPTLFLEDFIHV 219
PDKLR LMKLSFV+PARGVPT FL+DFI V
Sbjct: 181 PDKLRELMKLSFVRPARGVPTWFLQDFIQV 210
>Glyma05g31110.1
Length = 315
Score = 288 bits (738), Expect = 2e-78, Method: Compositional matrix adjust.
Identities = 129/205 (62%), Positives = 163/205 (79%)
Query: 15 ISFTASRDWLYRHSFAVAGLRSVSTDLSDGTTMHCWIPKSHKPCKPTLVLIHGFGANAMW 74
ISFTA+RD +R SF+ AGL+SV+TDL DGT MHCW PK+HK KP L+LIHGFGANAMW
Sbjct: 6 ISFTATRDRCFRFSFSNAGLKSVTTDLGDGTIMHCWAPKAHKDSKPNLLLIHGFGANAMW 65
Query: 75 QFGELIRHFITHFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRMSLVGIS 134
Q+ + + FN+YVPDLLFFG S T RP+R+E+FQA C+ L+Q+ G+ R S+VGIS
Sbjct: 66 QWNDFLSPLTRRFNVYVPDLLFFGDSHTTRPDRSEAFQAQCVAALLQAHGLQRTSVVGIS 125
Query: 135 YGGFVGYSVAAQFPEVVEKLVLCCTGVCLEEKDMENGLFAVSNLDEACSILLPQTPDKLR 194
YGGFV YS+AAQFPE VEK+VLCC GVCLE+KD++ G+F V +DEA ILLPQTP+KLR
Sbjct: 126 YGGFVAYSLAAQFPERVEKVVLCCAGVCLEDKDLDEGMFQVKTVDEAADILLPQTPEKLR 185
Query: 195 ALMKLSFVKPARGVPTLFLEDFIHV 219
L++L+F KP + +PT FL D+I+V
Sbjct: 186 QLVQLAFAKPVKTMPTCFLNDYINV 210
>Glyma08g14300.1
Length = 312
Score = 273 bits (699), Expect = 8e-74, Method: Compositional matrix adjust.
Identities = 121/205 (59%), Positives = 160/205 (78%)
Query: 15 ISFTASRDWLYRHSFAVAGLRSVSTDLSDGTTMHCWIPKSHKPCKPTLVLIHGFGANAMW 74
ISFTA+RD +R +F+ AGL+S +TDL DGT MH W PK+ K KP L+L+HGFGANAMW
Sbjct: 5 ISFTATRDRCFRFTFSNAGLKSATTDLGDGTIMHWWAPKAPKDSKPNLLLLHGFGANAMW 64
Query: 75 QFGELIRHFITHFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRMSLVGIS 134
Q+ +++ FN+YVPDL+FFG S T RPER+E+FQA C+ L+ + G+H S+VGIS
Sbjct: 65 QWNDVLSPLTRRFNVYVPDLVFFGDSHTTRPERSEAFQAQCVAALLLAHGLHTTSVVGIS 124
Query: 135 YGGFVGYSVAAQFPEVVEKLVLCCTGVCLEEKDMENGLFAVSNLDEACSILLPQTPDKLR 194
YGGFV YS+AAQFPE+VEK+VLCC GVCLE+KD++ G+F V +DEA ILLPQTP+KLR
Sbjct: 125 YGGFVAYSLAAQFPELVEKVVLCCAGVCLEDKDLDEGMFQVKTVDEAVDILLPQTPEKLR 184
Query: 195 ALMKLSFVKPARGVPTLFLEDFIHV 219
L++++F P + +PT FL D+I+V
Sbjct: 185 QLVQIAFAMPVKAIPTCFLNDYINV 209
>Glyma18g01970.1
Length = 315
Score = 263 bits (672), Expect = 1e-70, Method: Compositional matrix adjust.
Identities = 123/210 (58%), Positives = 159/210 (75%), Gaps = 2/210 (0%)
Query: 12 SRR-ISFTASRDWLYRHSFAVAGLRSVSTDLSDGTTMHCWIPKSHKPCKPTLVLIHGFGA 70
SRR +SFT RD R+SF+ AGL+S +TDL DGT MHCW PK+H +L+LIHG GA
Sbjct: 5 SRRCLSFTTWRDRYLRYSFSRAGLKSTTTDLGDGTIMHCWAPKAHNHSTTSLLLIHGIGA 64
Query: 71 NAMWQFGELIRHFITHFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRMSL 130
NA WQ+ I HFN+YVPDLLFFG S T RPER+E FQA C++ L+++ GV + S+
Sbjct: 65 NATWQWNHFISPLTRHFNVYVPDLLFFGDSHTTRPERSEWFQAKCVMALLEALGVRQTSV 124
Query: 131 VGISYGGFVGYSVAAQFPEVVEKLVLCCTGVCLEEKDMEN-GLFAVSNLDEACSILLPQT 189
VG+SYGGFV Y+VAA FPE VEK+V+CC GVCLE++DME+ G+F V ++DE S+LLPQT
Sbjct: 125 VGLSYGGFVAYAVAAMFPERVEKVVVCCAGVCLEDRDMEDEGMFWVKSVDEVVSVLLPQT 184
Query: 190 PDKLRALMKLSFVKPARGVPTLFLEDFIHV 219
P K+R L++L+F P + +PT FL+DFIHV
Sbjct: 185 PQKVRELLQLTFANPIKLLPTCFLKDFIHV 214
>Glyma13g01770.1
Length = 301
Score = 239 bits (610), Expect = 2e-63, Method: Compositional matrix adjust.
Identities = 117/208 (56%), Positives = 157/208 (75%), Gaps = 4/208 (1%)
Query: 16 SFTASRDWLYRHSFAVAGLRSVSTDLSDGTTMHCWIPKSHKPCKPTLVLIHGFGANAMWQ 75
SFT +R+ YR FA +GLRS TDL DGT MHCW PK+ KP+L+LIHG GANA+WQ
Sbjct: 7 SFTETRNRCYRSMFAGSGLRSTVTDLKDGTVMHCWEPKARAESKPSLLLIHGLGANALWQ 66
Query: 76 FGELIRHFITHFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRMSLVGISY 135
+G+LIRH H+N+YVPDL+FFGGS+T RPER E FQA C+ ++M++ GV R+SLVG+SY
Sbjct: 67 WGDLIRHVAPHYNVYVPDLVFFGGSYTARPERGERFQAECVARVMEAKGVRRVSLVGLSY 126
Query: 136 GGFVGYSVAAQ--FPEVVEKLVLCCTGVCLEEKDMENGLFAVSNLDEACSILLPQTPDKL 193
GGFVGY +AA +VE++V+C +GVC+EE+D++ GLF V +LDEA +IL+P+TP++L
Sbjct: 127 GGFVGYCMAAMEEGVVMVERVVVCGSGVCMEERDVKEGLFPVMDLDEAANILVPRTPERL 186
Query: 194 RALMKLSFVKPAR--GVPTLFLEDFIHV 219
R L+ +F KP +P+ FL DFI
Sbjct: 187 RELVGYTFFKPPPLWWLPSCFLLDFIET 214
>Glyma04g05970.1
Length = 302
Score = 155 bits (392), Expect = 4e-38, Method: Compositional matrix adjust.
Identities = 80/193 (41%), Positives = 115/193 (59%), Gaps = 2/193 (1%)
Query: 26 RHSFAVAGLRSVSTDLSDGTTMHCWIPKSHKPCKPTLVLIHGFGANAMWQFGELIRHFIT 85
R F AGL S + + D +T+H W P + KP+LVLIHGFG ++WQ+ + ++
Sbjct: 17 RRCFTGAGLSSQTLRVDDESTLHFWAPTNPTAQKPSLVLIHGFGPESIWQWRKQVQFLAP 76
Query: 86 HFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRMSLVGISYGGFVGYSVAA 145
HFN+YVPDL+FFGGS T ER+E+FQA + KL+ V + +VG SYGG V Y++A
Sbjct: 77 HFNVYVPDLIFFGGSSTKSSERSETFQAASVGKLLDKLEVEKFHVVGTSYGGMVAYNLAK 136
Query: 146 QFPE-VVEKLVLCCTGVCLEEKDMENGLFAVSNLDEACSILLPQTPDKLRALMKLSFVKP 204
E V+K+V+ +GV + K L + L++ ++LP TP LR LMK S KP
Sbjct: 137 MLGEDRVQKVVIASSGVNM-IKSSNVALVQRAQLEKIEDLMLPPTPQHLRILMKFSIHKP 195
Query: 205 ARGVPTLFLEDFI 217
+ +P L DF+
Sbjct: 196 PQLLPDFLLRDFL 208
>Glyma06g05980.1
Length = 302
Score = 148 bits (374), Expect = 4e-36, Method: Compositional matrix adjust.
Identities = 78/193 (40%), Positives = 113/193 (58%), Gaps = 2/193 (1%)
Query: 26 RHSFAVAGLRSVSTDLSDGTTMHCWIPKSHKPCKPTLVLIHGFGANAMWQFGELIRHFIT 85
R F +GL S + + D TT+H W P + KP++VLIHGFG ++WQ+ + ++
Sbjct: 17 RRCFTGSGLSSQTLSVDDETTLHFWAPTNPTAQKPSVVLIHGFGPESIWQWRKQVQFLAP 76
Query: 86 HFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRMSLVGISYGGFVGYSVAA 145
FN+YV DL+FFGGS T ER+E+FQA L KL+ V + +VG SYGG V Y++A
Sbjct: 77 DFNVYVLDLIFFGGSSTKSSERSETFQAASLGKLLDKLEVEKFHVVGTSYGGLVAYNLAK 136
Query: 146 QF-PEVVEKLVLCCTGVCLEEKDMENGLFAVSNLDEACSILLPQTPDKLRALMKLSFVKP 204
E V+K+V+ +GV + K L + L++ ++LP TP LR LM LS KP
Sbjct: 137 MLGEERVQKVVIASSGVNM-MKSSNVALVQRAQLEKIEDLMLPPTPQHLRILMSLSIHKP 195
Query: 205 ARGVPTLFLEDFI 217
+ +P L DF+
Sbjct: 196 PQLLPDFLLRDFL 208
>Glyma06g05970.1
Length = 281
Score = 147 bits (371), Expect = 1e-35, Method: Compositional matrix adjust.
Identities = 85/210 (40%), Positives = 115/210 (54%), Gaps = 5/210 (2%)
Query: 12 SRRISFTASRDWLYRHSFAVAGL--RSVSTDLSDGTTMHCWIPKSHKPC-KPTLVLIHGF 68
S SF + R F AGL +++S D TTMH W P+ + KP+LVLIHGF
Sbjct: 3 SSSFSFVSLYSKYIRRCFTSAGLWSQALSVDKDGETTMHFWGPRKVEAAQKPSLVLIHGF 62
Query: 69 GANAMWQFGELIRHFITHFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRM 128
G AMWQ+ ++ HFN+YVPDL+FFGGS T ER+E FQA + KL+ V +
Sbjct: 63 GPAAMWQWRRQVKFLAPHFNLYVPDLVFFGGSHTKSGERSEMFQAASVGKLLDKLEVEKF 122
Query: 129 SLVGISYGGFVGYSVAAQF-PEVVEKLVLCCTGVCLEEKDMENGLFAVSNLDEACSILLP 187
+VG SYGG V Y++A E V+K+V+ +GV + L S ++ ++LP
Sbjct: 123 HVVGTSYGGMVAYNLAKMLGQERVQKVVIASSGVNMTMSS-NTALVQSSEMESIDDLMLP 181
Query: 188 QTPDKLRALMKLSFVKPARGVPTLFLEDFI 217
P +LR LM LS P VP L+ FI
Sbjct: 182 TKPHQLRKLMSLSIYNPPPLVPDFMLKAFI 211
>Glyma16g25350.1
Length = 316
Score = 125 bits (315), Expect = 3e-29, Method: Compositional matrix adjust.
Identities = 76/228 (33%), Positives = 120/228 (52%), Gaps = 29/228 (12%)
Query: 15 ISFTASRDWLYRHSFAVAGLRSVSTDLSDGTTMHCWIPK---------------SHKPCK 59
++ A++ L +AG+R + ++ GT M W+P S KP +
Sbjct: 2 VNLVAAQRPLLHGLMKMAGVRPYTVEIEPGTVMSFWVPSETLTKPKKKNEKPRISSKPSR 61
Query: 60 PTLVLIHGFGANAM--WQFGELIRHFITHFNIYVPDLLFFGGSFTLRPERTESFQALCLV 117
P +VL+HGFGA + WQ+ + + +YVPDLLFFGGS T +P R+ +FQA C+V
Sbjct: 62 PAVVLVHGFGAEGIMTWQYQ--VGALTKKYAVYVPDLLFFGGSTTDKPHRSPAFQAQCVV 119
Query: 118 KLMQSFGVHRMSLVGISYGGFVGYSVAAQFPEVVEKLVLCCTGVCLEEKDMENGLFAVS- 176
++ GV + +VG SYGG V + +A +PEVVE LV+ TG L M + + A S
Sbjct: 120 AGLRKLGVEKCIVVGYSYGGMVAFKMAEMYPEVVEALVI--TGSILA---MTDSISATSL 174
Query: 177 ---NLDEACSILLPQTPDKLRALMKLSFVKPARGVPTLFLEDFIHVCV 221
+ +LLP + L+AL+ ++ K + P L+D++ V +
Sbjct: 175 QELGFSSSSELLLPTSVKGLKALLTVASHK-KQWYPNRLLKDYLEVMI 221
>Glyma16g25330.1
Length = 316
Score = 122 bits (306), Expect = 3e-28, Method: Compositional matrix adjust.
Identities = 71/206 (34%), Positives = 108/206 (52%), Gaps = 21/206 (10%)
Query: 31 VAGLRSVSTDLSDGTTMHCWIPK---------------SHKPCKPTLVLIHGFGANAM-- 73
+AG+R + ++ GT M+ WIP + KP KP +VL+HGF A +
Sbjct: 18 MAGIRPYTVEIEPGTAMNFWIPSETITKPKKKDKKPRITAKPNKPAVVLVHGFAAEGIMT 77
Query: 74 WQFGELIRHFITHFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRMSLVGI 133
WQF + + +YVPDLLFFGGS T +P R+ FQA CLV ++ GV + +VG
Sbjct: 78 WQFQ--VGALTKKYAVYVPDLLFFGGSATNKPNRSPRFQAECLVAGLRKLGVEKCVVVGF 135
Query: 134 SYGGFVGYSVAAQFPEVVEKLVLCCTGVCLEEKDMENGLFAVSNLDEACSILLPQTPDKL 193
SYGG V + +A +PE+V LV+ + + + E + L + +LLP + L
Sbjct: 136 SYGGMVAFKMAEMYPELVLGLVISGSILAMSE-SLSTTLLQELGVSSFSELLLPTSVKGL 194
Query: 194 RALMKLSFVKPARGVPTLFLEDFIHV 219
+AL ++ K R P L+D++ V
Sbjct: 195 KALFSIAAHKKLR-FPNRLLKDYLEV 219
>Glyma02g06300.1
Length = 316
Score = 116 bits (290), Expect = 2e-26, Method: Compositional matrix adjust.
Identities = 63/187 (33%), Positives = 100/187 (53%), Gaps = 20/187 (10%)
Query: 31 VAGLRSVSTDLSDGTTMHCWIPKS---------------HKPCKPTLVLIHGFGANAM-- 73
+AG+R + ++ GTTM W+P KP KP ++L+HGF A +
Sbjct: 18 MAGIRPYTVEIEPGTTMSFWVPSETITKPKKKDEKPRIRAKPSKPAVILVHGFAAEGIVT 77
Query: 74 WQFGELIRHFITHFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRMSLVGI 133
WQF + + +YVPDLLFFGGS T + ER+ QA CLV ++ GV +VG
Sbjct: 78 WQFQ--VGALTKKYAVYVPDLLFFGGSTTDKAERSPRLQAECLVAALRKLGVEECVVVGF 135
Query: 134 SYGGFVGYSVAAQFPEVVEKLVLCCTGVCLEEKDMENGLFAVSNLDEACSILLPQTPDKL 193
SYGG V + +A +PE+V+ LV+ + + + E + L + + + +LLP + L
Sbjct: 136 SYGGMVAFKMAEMYPEMVQGLVISGSILAMSESLSASSLQEL-GVSSSSELLLPTSVKGL 194
Query: 194 RALMKLS 200
+AL+ ++
Sbjct: 195 KALLSIA 201
>Glyma14g35050.1
Length = 280
Score = 114 bits (284), Expect = 1e-25, Method: Compositional matrix adjust.
Identities = 75/207 (36%), Positives = 106/207 (51%), Gaps = 36/207 (17%)
Query: 16 SFTASRDWLYRHSFAVAGLRSVSTDLSDGTTMHCWIPKSHKPCKPTLVLIHGFGANAMWQ 75
SF +R+ YR F GLRS TDL+D T MHCW PK C +G ++A W+
Sbjct: 7 SFIETRNRCYRSIFTGLGLRSKITDLNDRTVMHCWKPKEQTRCG------NGGTSSATWR 60
Query: 76 FGELIRHFITHFNIYVPDLLFFGGSFTLRPERTESFQALCLVKLMQSFGVHRMSLVGISY 135
I + RP R+ + RM G+SY
Sbjct: 61 L-----------TITCTCRTLCSSAGPTRPGRSAGSDS------------KRM---GLSY 94
Query: 136 GGFVGYSVAA--QFPEVVEKLVLCCTGVCLEEKDMENGLFAVSNLDEACSILLPQTPDKL 193
FVGY +AA + VVE++V+C + VC+EEKD++ GLF V+NLDEA ++L+P+TP++L
Sbjct: 95 NEFVGYCMAAMEEGMMVVERVVVCGSRVCMEEKDVKEGLFLVTNLDEAANVLVPRTPERL 154
Query: 194 RALMKLSFVKPA--RGVPTLFLEDFIH 218
R L+ +F KP + + FL DFI
Sbjct: 155 RELVGYTFFKPPPLGWLASCFLLDFIE 181
>Glyma04g02900.2
Length = 387
Score = 51.2 bits (121), Expect = 8e-07, Method: Compositional matrix adjust.
Identities = 38/123 (30%), Positives = 61/123 (49%), Gaps = 12/123 (9%)
Query: 56 KPCKPTLVLIHGFGANAMWQFGELIRHF---ITHFNIYVPDLLFFGGS----FTLRP-ER 107
KP PTLV+IHG+ A+ G R+F + F + D L +GGS FT + E
Sbjct: 87 KPHSPTLVMIHGYAASQ----GFFFRNFDALASRFRVIAVDQLGWGGSSRPDFTCKSTEE 142
Query: 108 TESFQALCLVKLMQSFGVHRMSLVGISYGGFVGYSVAAQFPEVVEKLVLCCTGVCLEEKD 167
TE++ + ++ + L+G S+GG+V A + PE V+ L+L + E D
Sbjct: 143 TEAWFIDSFEEWRKAKNLSNFILLGHSFGGYVAAKYALKHPEHVQHLILVGSAGFSSESD 202
Query: 168 MEN 170
++
Sbjct: 203 AKS 205
>Glyma04g02900.1
Length = 387
Score = 51.2 bits (121), Expect = 8e-07, Method: Compositional matrix adjust.
Identities = 38/123 (30%), Positives = 61/123 (49%), Gaps = 12/123 (9%)
Query: 56 KPCKPTLVLIHGFGANAMWQFGELIRHF---ITHFNIYVPDLLFFGGS----FTLRP-ER 107
KP PTLV+IHG+ A+ G R+F + F + D L +GGS FT + E
Sbjct: 87 KPHSPTLVMIHGYAASQ----GFFFRNFDALASRFRVIAVDQLGWGGSSRPDFTCKSTEE 142
Query: 108 TESFQALCLVKLMQSFGVHRMSLVGISYGGFVGYSVAAQFPEVVEKLVLCCTGVCLEEKD 167
TE++ + ++ + L+G S+GG+V A + PE V+ L+L + E D
Sbjct: 143 TEAWFIDSFEEWRKAKNLSNFILLGHSFGGYVAAKYALKHPEHVQHLILVGSAGFSSESD 202
Query: 168 MEN 170
++
Sbjct: 203 AKS 205