Jatropha Genome Database
- JcCA0129501.30
BLASTP 2.2.23 [Feb-03-2010]
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= JcCA0129501.30 - phase: 1 /pseudo/partial
(293 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma06g20380.1 361 e-100
Glyma04g34120.1 354 8e-98
Glyma17g10680.1 345 4e-95
Glyma09g37450.1 327 1e-89
Glyma18g49210.1 322 2e-88
Glyma13g05240.1 301 7e-82
Glyma05g01220.1 298 5e-81
Glyma19g02450.1 292 4e-79
Glyma07g11600.2 264 1e-70
Glyma07g11600.1 262 3e-70
Glyma09g30670.1 259 2e-69
Glyma09g30540.1 157 1e-38
>Glyma06g20380.1
Length = 349
Score = 361 bits (927), Expect = e-100, Method: Compositional matrix adjust.
Identities = 170/265 (64%), Positives = 210/265 (79%), Gaps = 1/265 (0%)
Query: 1 NYADIVLGFESIEEYKNDTTYFGSIVGRVANRIGKSQFTLNGTVYKLVPNNGKNSLHGGP 60
N DI LG++ IE+YKND+ YFG+ +GRVANRIG +QFTL+G YKL N+ N+LHGG
Sbjct: 54 NLGDITLGYDDIEQYKNDSWYFGATIGRVANRIGHAQFTLDGHTYKLPANDHGNTLHGGF 113
Query: 61 KGFSEVLWKVYSYNKDSHITFTYDSFDGEEGYPGDLSVSVTYFVIGTNKIAVKMVAKPLN 120
GFS+V+W V S+ +D H+TFTYDS+D E+G+PG L VSVTY VIGTNK +VKM+AKP++
Sbjct: 114 TGFSDVVWTVKSHKEDDHVTFTYDSYDHEQGFPGRLEVSVTYMVIGTNKYSVKMIAKPID 173
Query: 121 KATPVNLALHTYFNLAGHNSGDILSHKIQLFAPEITPVDSELIPTGKITPVKGTPFDFLE 180
KATPVNLA HTY+NL GHN GDILSH++Q+F +ITPVD +LIPTGK VKGTP+DFLE
Sbjct: 174 KATPVNLAHHTYWNLKGHNGGDILSHEVQIFGSKITPVDKKLIPTGKFESVKGTPYDFLE 233
Query: 181 PREIGSRIKEVPG-YDINYVLEDLKSGHLKRAAIVKEDVSGRKLELWTNQPGVQFYTSNM 239
PRE+GSRI ++PG YD+NYVL+ H ++ IV+E VSGRKLELW+NQ G+QFYT M
Sbjct: 234 PREVGSRINDLPGLYDMNYVLDASSPNHFRKVLIVREKVSGRKLELWSNQIGLQFYTGGM 293
Query: 240 LHDVKGKDGFIYQKFAGFCLETQGF 264
L+ KGKDG IY K G LETQGF
Sbjct: 294 LNATKGKDGAIYHKHGGMALETQGF 318
>Glyma04g34120.1
Length = 355
Score = 354 bits (908), Expect = 8e-98, Method: Compositional matrix adjust.
Identities = 170/266 (63%), Positives = 210/266 (78%), Gaps = 2/266 (0%)
Query: 1 NYADIVLGFESIEEYKNDTTYFGSIVGRVANRIGKSQFTLNGTVYKLVPNNGKNSLHGGP 60
N DI LG++ IE+YKND+ YFG+ +GRVANRIG +QFTL+G YKL N+ N+LHGG
Sbjct: 59 NLDDITLGYDDIEQYKNDSWYFGATIGRVANRIGHAQFTLDGHTYKLPANDHGNTLHGGF 118
Query: 61 KGFSEVLWKVYSYNKDSHITFTYDSFDGEEGYPGDLSVSVTYFVIGTNKIAVKMVAKPLN 120
KGFS+V+W V S+ +D HITFTYDS D E+G+PG L VSVTY +IGTNK ++KM+A+P++
Sbjct: 119 KGFSDVVWTVKSHKEDDHITFTYDSHDNEQGFPGRLEVSVTYMLIGTNKYSLKMIARPID 178
Query: 121 KATPVNLALHTYFNLAGHNSGD-ILSHKIQLFAPEITPVDSELIPTGKITPVKGTPFDFL 179
KATPVNLA HTY+NL G NSGD ILSH++Q+F +ITPVD ELIPTGK VKGTP+DFL
Sbjct: 179 KATPVNLAHHTYWNLKGQNSGDNILSHEVQIFGSKITPVDKELIPTGKFESVKGTPYDFL 238
Query: 180 EPREIGSRIKEVPG-YDINYVLEDLKSGHLKRAAIVKEDVSGRKLELWTNQPGVQFYTSN 238
EPRE+GSRI ++PG YD+NYVL+ H ++ IV+E VSGRKLELW+NQ G+QFYT
Sbjct: 239 EPREVGSRINDLPGLYDMNYVLDASSPYHFRKVIIVREKVSGRKLELWSNQLGLQFYTGG 298
Query: 239 MLHDVKGKDGFIYQKFAGFCLETQGF 264
ML+ KGKDG IY K G LETQGF
Sbjct: 299 MLNATKGKDGAIYHKHGGMALETQGF 324
>Glyma17g10680.1
Length = 351
Score = 345 bits (884), Expect = 4e-95, Method: Compositional matrix adjust.
Identities = 163/262 (62%), Positives = 208/262 (79%), Gaps = 1/262 (0%)
Query: 3 ADIVLGFESIEEYKNDTTYFGSIVGRVANRIGKSQFTLNGTVYKLVPNNGKNSLHGGPKG 62
ADIVLG++SI+ YKNDT YFG+++GRVANRI ++FTL+G YKL N+ N+LHGG +G
Sbjct: 60 ADIVLGYDSIDSYKNDTVYFGALIGRVANRIRGAKFTLDGKTYKLPANDHGNTLHGGARG 119
Query: 63 FSEVLWKVYSYNKDSHITFTYDSFDGEEGYPGDLSVSVTYFVIGTNKIAVKMVAKPLNKA 122
F +V+W V S+ K H+TFTYDSF+ E+G+PG L VSVTY +IG +K+AVKM+AKP++KA
Sbjct: 120 FGDVVWSVESHKKHRHVTFTYDSFENEQGFPGKLKVSVTYMLIGRHKLAVKMIAKPVDKA 179
Query: 123 TPVNLALHTYFNLAGHNSGDILSHKIQLFAPEITPVDSELIPTGKITPVKGTPFDFLEPR 182
TPVNLA HTY+NL GHNSGDILSH +Q+F ITPVD LIPTG+I VKGTP+DFLEP+
Sbjct: 180 TPVNLAQHTYWNLRGHNSGDILSHTVQIFGSHITPVDRLLIPTGEIISVKGTPYDFLEPK 239
Query: 183 EIGSRIKEVPGYDINYVLEDLKSGHLKRAAIVKEDVSGRKLELWTNQPGVQFYTSNMLHD 242
++GS+I+E YD+NYVL+ HL + +V + VSGRKLELW+NQ G+QFYTS L+
Sbjct: 240 KVGSQIQE-GLYDMNYVLDKSFKKHLSKVVVVTDPVSGRKLELWSNQLGLQFYTSGQLNA 298
Query: 243 VKGKDGFIYQKFAGFCLETQGF 264
KGKDG +Y+K AG LETQGF
Sbjct: 299 TKGKDGAVYRKHAGIALETQGF 320
>Glyma09g37450.1
Length = 371
Score = 327 bits (837), Expect = 1e-89, Method: Compositional matrix adjust.
Identities = 158/268 (58%), Positives = 203/268 (75%), Gaps = 6/268 (2%)
Query: 3 ADIVLGFESIEEYKNDTTYFGSIVGRVANRIGKSQFTLNGTVYKLVPNNGKNSLHGGPKG 62
+D+VLG++S+++Y NDTTYFG+ VGRVANRIG +QFTLNG YKLV N G N+LHGG +G
Sbjct: 66 SDVVLGYDSVKDYTNDTTYFGATVGRVANRIGGAQFTLNGIHYKLVANEGNNTLHGGARG 125
Query: 63 FSEVLWKVYSYNKDS---HITFTYDSFDGEEGYPGDLSVSVTYFVIGTNKIAVKMVAKPL 119
FS+VLWKV Y K+ ITF+Y S DGE+G+PGDL V+V+Y + G N++ + M K L
Sbjct: 126 FSDVLWKVKRYQKEGPSPSITFSYHSIDGEQGFPGDLLVTVSYILTGKNQLVILMKGKTL 185
Query: 120 NKATPVNLALHTYFNLAGHNSGDILSHKIQLFAPEITPVDSELIPTGKITPVKGTPFDFL 179
NK TPVNLA H Y+NL GHNSG+IL+ +Q+F +ITPVDS+LIPTGK VKGT +DFL
Sbjct: 186 NKPTPVNLANHAYWNLGGHNSGNILNEVVQIFGSKITPVDSKLIPTGKFASVKGTAYDFL 245
Query: 180 EPREIGSRIK---EVPGYDINYVLEDLKSGHLKRAAIVKEDVSGRKLELWTNQPGVQFYT 236
+P+ +GSRI E GYDINYVL+ K +K AAIV++ SGR LEL+TN PG+QFYT
Sbjct: 246 KPQTVGSRINQLAETKGYDINYVLDGEKGQKIKLAAIVQDKKSGRVLELFTNAPGLQFYT 305
Query: 237 SNMLHDVKGKDGFIYQKFAGFCLETQGF 264
N + D+KGK G++YQ +G CLE+Q F
Sbjct: 306 GNYVKDLKGKGGYVYQSHSGLCLESQAF 333
>Glyma18g49210.1
Length = 371
Score = 322 bits (826), Expect = 2e-88, Method: Compositional matrix adjust.
Identities = 155/268 (57%), Positives = 201/268 (75%), Gaps = 6/268 (2%)
Query: 3 ADIVLGFESIEEYKNDTTYFGSIVGRVANRIGKSQFTLNGTVYKLVPNNGKNSLHGGPKG 62
D+VLG++S+++Y NDTTYFG+ VGRVANRIG +QFTLNG YKLV N G N+LHGG +G
Sbjct: 66 GDVVLGYDSVKDYSNDTTYFGATVGRVANRIGGAQFTLNGIYYKLVANEGNNTLHGGARG 125
Query: 63 FSEVLWKVYSYNKDS---HITFTYDSFDGEEGYPGDLSVSVTYFVIGTNKIAVKMVAKPL 119
FS+VLWKV Y K+ ITF Y S DGE+G+PGDL V+V+Y + G N++ + M K L
Sbjct: 126 FSDVLWKVKRYQKEGPSPSITFRYHSVDGEQGFPGDLLVTVSYILTGKNQLVILMKGKAL 185
Query: 120 NKATPVNLALHTYFNLAGHNSGDILSHKIQLFAPEITPVDSELIPTGKITPVKGTPFDFL 179
NK TPVNLA H Y+NL GHNSG+IL+ +Q+F +ITPVD++LIPTGK VKGT +DFL
Sbjct: 186 NKPTPVNLANHAYWNLGGHNSGNILNEVVQIFGSKITPVDNKLIPTGKFASVKGTAYDFL 245
Query: 180 EPREIGSRIKEVP---GYDINYVLEDLKSGHLKRAAIVKEDVSGRKLELWTNQPGVQFYT 236
+P+ +GSRI ++ GYDINYV++ K +K AAIV++ SGR LEL+TN PG+QFYT
Sbjct: 246 KPQTVGSRINQLAGTKGYDINYVIDGEKGQKIKLAAIVQDKKSGRVLELFTNAPGLQFYT 305
Query: 237 SNMLHDVKGKDGFIYQKFAGFCLETQGF 264
N + D+KGK G++Y AG CLE+Q F
Sbjct: 306 GNYIKDLKGKGGYVYNAHAGLCLESQAF 333
>Glyma13g05240.1
Length = 367
Score = 301 bits (770), Expect = 7e-82, Method: Compositional matrix adjust.
Identities = 150/268 (55%), Positives = 192/268 (71%), Gaps = 7/268 (2%)
Query: 3 ADIVLGFESIEEYKNDTTYFGSIVGRVANRIGKSQFTLNGTVYKLVPNNGKNSLHGGPKG 62
DIVLG++S + Y NDT+YFG+ VGRVANRIG +QFTLNG YKLV N G N+LH GPK
Sbjct: 62 GDIVLGYDSPKAYTNDTSYFGATVGRVANRIGGAQFTLNGIHYKLVANEGNNTLHSGPKA 121
Query: 63 FSEVLWKVYSYNKDS---HITFTYDSFDGEEGYPGDLSVSVTYFVIGTNKIAVKMVAKPL 119
FS+VLWKV Y KD ITF+Y S+DGE G+PGDL V+V+Y ++G N + + M AK L
Sbjct: 122 FSDVLWKVTRYIKDGEKPRITFSYHSYDGEGGFPGDLLVTVSY-ILGKNSLRIIMKAKAL 180
Query: 120 NKATPVNLALHTYFNLAGHNSGDILSHKIQLFAPEITPVDSELIPTGKITPVKGTPFDFL 179
NK TPVN+ H Y+NL HNSG+IL +Q+F ++T D LIPTG+ VKGTP+DFL
Sbjct: 181 NKPTPVNMVNHAYWNLGNHNSGNILDEVVQIFGSQVTLFDDHLIPTGQYASVKGTPYDFL 240
Query: 180 EPREIGSRIKEVP---GYDINYVLEDLKSGHLKRAAIVKEDVSGRKLELWTNQPGVQFYT 236
EP +G RI ++P GYDINYVL+ K +K AAIV + SGR ++L+TN PG+QFYT
Sbjct: 241 EPHIVGERINQLPKTNGYDINYVLDGEKGKEIKLAAIVVDKKSGRVMKLFTNAPGLQFYT 300
Query: 237 SNMLHDVKGKDGFIYQKFAGFCLETQGF 264
+N + + KGK GF+YQ + CLE+Q F
Sbjct: 301 ANFVKNEKGKGGFVYQPRSALCLESQAF 328
>Glyma05g01220.1
Length = 302
Score = 298 bits (763), Expect = 5e-81, Method: Compositional matrix adjust.
Identities = 151/271 (55%), Positives = 195/271 (71%), Gaps = 19/271 (7%)
Query: 1 NYADIVLGFESIEEYK---------NDTTYFGSIVGRVANRIGKSQFTLNGTVYKLVPNN 51
N DIVLG+ + + NDT YFG+++GRVA+RIG ++FTL G YKL N+
Sbjct: 41 NLGDIVLGYGPLILIRTTRERLFITNDTVYFGALIGRVASRIGGAKFTLEGKTYKLPAND 100
Query: 52 GKNSLHGGPKGFSEVLWKVYSYNKDSHITFTYDSFDGEEGYPGDLSVSVTYFVIGTNKIA 111
N+LHGG +GFS+V+W V S+ K SH+TFTYDSF+ E+ VTY +IGT++
Sbjct: 101 HGNTLHGGARGFSDVIWSVESHKKHSHVTFTYDSFENEQ---------VTYMLIGTHEFG 151
Query: 112 VKMVAKPLNKATPVNLALHTYFNLAGHNSGDILSHKIQLFAPEITPVDSELIPTGKITPV 171
VKM+AK ++KATPVNLA HTY+NL GHNSGDILSH +Q+F ITPVD LIPTG+I V
Sbjct: 152 VKMIAKQVDKATPVNLAQHTYWNLRGHNSGDILSHTVQIFGSHITPVDKLLIPTGEIISV 211
Query: 172 KGTPFDFLEPREIGSRIKEVPGYDINYVLEDLKSGHLKRAAIVKEDVSGRKLELWTNQPG 231
KGTP+DFLEP+++GS+I+E YD+NYVL+ HL +AA+V + VSGRKLELW+NQ G
Sbjct: 212 KGTPYDFLEPKKVGSQIQEGL-YDMNYVLDKSFQKHLSKAAVVIDPVSGRKLELWSNQLG 270
Query: 232 VQFYTSNMLHDVKGKDGFIYQKFAGFCLETQ 262
+QFYTS L+ KGKD +Y K AG LET+
Sbjct: 271 LQFYTSGQLNATKGKDEALYGKHAGIALETK 301
>Glyma19g02450.1
Length = 368
Score = 292 bits (747), Expect = 4e-79, Method: Compositional matrix adjust.
Identities = 147/269 (54%), Positives = 192/269 (71%), Gaps = 8/269 (2%)
Query: 3 ADIVLGFESIEEYKNDTTYFGSIVGRVANRIGKSQFTLNGTVYKLVPNNGKNSLHGGPKG 62
DIVLG++S + Y NDT+YFG+ VGRVANRIG +QFTLNG YKLV N G N+LH GPK
Sbjct: 62 GDIVLGYDSPKAYTNDTSYFGATVGRVANRIGGAQFTLNGIHYKLVANEGNNTLHSGPKA 121
Query: 63 FSEVLWKVYSYNKDS---HITFTYDSFDGEEGYPGDLSVSVTYFVIGTNKIAVKMVAKPL 119
FS+VLWKV Y KD ITF+Y S+DGE G+PGDL V+V+Y ++G N +++ M AK L
Sbjct: 122 FSDVLWKVTRYIKDDDKPRITFSYHSYDGEGGFPGDLLVTVSY-ILGKNSLSIIMKAKAL 180
Query: 120 NKATPVNLALHTYFNLAGHNSGDILSHKIQLFAPEITPVDSELIPTGKITPVKGTPFDFL 179
NK TPVN+ H Y+NL HNSG+IL +Q+F ++T D LIPTG+ V+GTP DFL
Sbjct: 181 NKPTPVNMVNHAYWNLGNHNSGNILDEVVQIFGSQVTLFDDNLIPTGQYASVRGTPNDFL 240
Query: 180 EPREIGSRIKEVP---GYDINYVLEDLK-SGHLKRAAIVKEDVSGRKLELWTNQPGVQFY 235
EP +G RI ++P GY+INYVL+ K + +K AAI + SGR ++L+TN PG+QFY
Sbjct: 241 EPHIVGERINQLPKTNGYNINYVLDGEKGNAEIKLAAIAVDKKSGRVMKLFTNAPGLQFY 300
Query: 236 TSNMLHDVKGKDGFIYQKFAGFCLETQGF 264
T+N + + KGK GF+YQ + CLE+Q F
Sbjct: 301 TANFVKNDKGKGGFVYQPRSALCLESQAF 329
>Glyma07g11600.2
Length = 339
Score = 264 bits (674), Expect = 1e-70, Method: Compositional matrix adjust.
Identities = 150/268 (55%), Positives = 181/268 (67%), Gaps = 7/268 (2%)
Query: 3 ADIVLGFESIEEY-KNDTTYFGSIVGRVANRIGKSQFTLNGTVYKLVPNNGKNSLHGGPK 61
+DIVLG ES+E Y K YFG IVGRVANRI +FTL+G Y L N NSLHGG
Sbjct: 42 SDIVLGLESVESYQKGLAPYFGCIVGRVANRIKDGKFTLDGIQYSLPINKPPNSLHGGNV 101
Query: 62 GFSEVLWKVYSYNKDS--HITFTYDSFDGEEGYPGDLSVSVTYFVIGTNKIAVKMVAKPL 119
GF + +W+V Y K + ITF S DGEEGYPGD++V+ TY + + + + M P
Sbjct: 102 GFDKKVWEVVEYKKGNTPSITFRCHSHDGEEGYPGDVTVTATYTLTSSTTLRLDMEGVPK 161
Query: 120 NKATPVNLALHTYFNLAGHNSGDILSHKIQLFAPEITPVDSELIPTGKITPVKGTPFDFL 179
+K T VNLA HTY+NLAGHNSG+IL H IQL+A ITPVD +PTGKI PVKGTPFDF
Sbjct: 162 DKPTIVNLAQHTYWNLAGHNSGNILDHSIQLWANHITPVDENTVPTGKIMPVKGTPFDFT 221
Query: 180 EPREIGSRIKEVP-GYDINYVLE--DLKSGHLKRAAIVKEDVSGRKLELWTNQPGVQFYT 236
IG+ I +V GYD NYVL+ + K G L+ AA V++ S R L LWTN PGVQFYT
Sbjct: 222 SENRIGNTISQVGLGYDHNYVLDCGEEKEG-LRHAAKVRDPSSSRVLNLWTNAPGVQFYT 280
Query: 237 SNMLHDVKGKDGFIYQKFAGFCLETQGF 264
+N ++ V+GK G IY K AG CLETQGF
Sbjct: 281 ANYVNGVQGKGGAIYGKHAGLCLETQGF 308
>Glyma07g11600.1
Length = 350
Score = 262 bits (670), Expect = 3e-70, Method: Compositional matrix adjust.
Identities = 150/268 (55%), Positives = 181/268 (67%), Gaps = 7/268 (2%)
Query: 3 ADIVLGFESIEEY-KNDTTYFGSIVGRVANRIGKSQFTLNGTVYKLVPNNGKNSLHGGPK 61
+DIVLG ES+E Y K YFG IVGRVANRI +FTL+G Y L N NSLHGG
Sbjct: 53 SDIVLGLESVESYQKGLAPYFGCIVGRVANRIKDGKFTLDGIQYSLPINKPPNSLHGGNV 112
Query: 62 GFSEVLWKVYSYNKDS--HITFTYDSFDGEEGYPGDLSVSVTYFVIGTNKIAVKMVAKPL 119
GF + +W+V Y K + ITF S DGEEGYPGD++V+ TY + + + + M P
Sbjct: 113 GFDKKVWEVVEYKKGNTPSITFRCHSHDGEEGYPGDVTVTATYTLTSSTTLRLDMEGVPK 172
Query: 120 NKATPVNLALHTYFNLAGHNSGDILSHKIQLFAPEITPVDSELIPTGKITPVKGTPFDFL 179
+K T VNLA HTY+NLAGHNSG+IL H IQL+A ITPVD +PTGKI PVKGTPFDF
Sbjct: 173 DKPTIVNLAQHTYWNLAGHNSGNILDHSIQLWANHITPVDENTVPTGKIMPVKGTPFDFT 232
Query: 180 EPREIGSRIKEVP-GYDINYVLE--DLKSGHLKRAAIVKEDVSGRKLELWTNQPGVQFYT 236
IG+ I +V GYD NYVL+ + K G L+ AA V++ S R L LWTN PGVQFYT
Sbjct: 233 SENRIGNTISQVGLGYDHNYVLDCGEEKEG-LRHAAKVRDPSSSRVLNLWTNAPGVQFYT 291
Query: 237 SNMLHDVKGKDGFIYQKFAGFCLETQGF 264
+N ++ V+GK G IY K AG CLETQGF
Sbjct: 292 ANYVNGVQGKGGAIYGKHAGLCLETQGF 319
>Glyma09g30670.1
Length = 339
Score = 259 bits (663), Expect = 2e-69, Method: Compositional matrix adjust.
Identities = 148/268 (55%), Positives = 180/268 (67%), Gaps = 7/268 (2%)
Query: 3 ADIVLGFESIEEY-KNDTTYFGSIVGRVANRIGKSQFTLNGTVYKLVPNNGKNSLHGGPK 61
+D+VLG ES+E Y K YFG IVGRVANRI +FTL+G Y L NN NSLHGG
Sbjct: 42 SDVVLGLESVESYQKGLAPYFGCIVGRVANRIKDGKFTLDGIHYSLPINNPPNSLHGGNV 101
Query: 62 GFSEVLWKVYSYNKDS--HITFTYDSFDGEEGYPGDLSVSVTYFVIGTNKIAVKMVAKPL 119
GF + +W+V + K ITF S DGEEGYPGD++V+ TY + + + + M P
Sbjct: 102 GFDKKVWEVVEHKKGETPSITFKCHSHDGEEGYPGDITVTATYTLTSSTTLRLDMEGVPK 161
Query: 120 NKATPVNLALHTYFNLAGHNSGDILSHKIQLFAPEITPVDSELIPTGKITPVKGTPFDFL 179
K T VNLA HTY+NLAGHNSG+IL H IQL+A ITPV+ +PTG+I PVKGTPFDF
Sbjct: 162 GKPTIVNLAQHTYWNLAGHNSGNILDHSIQLWANHITPVNENTVPTGEIMPVKGTPFDFT 221
Query: 180 EPREIGSRIKEVP-GYDINYVLE--DLKSGHLKRAAIVKEDVSGRKLELWTNQPGVQFYT 236
IGS I +V GYD NYVL+ + K G L+ AA V++ S R L LWTN PGVQFYT
Sbjct: 222 SFNRIGSTISQVGLGYDHNYVLDCGEEKEG-LRHAAKVRDPSSSRVLNLWTNAPGVQFYT 280
Query: 237 SNMLHDVKGKDGFIYQKFAGFCLETQGF 264
+N ++ V+GK G IY K AG CLETQGF
Sbjct: 281 ANYVNGVQGKGGAIYGKHAGLCLETQGF 308
>Glyma09g30540.1
Length = 164
Score = 157 bits (397), Expect = 1e-38, Method: Compositional matrix adjust.
Identities = 86/152 (56%), Positives = 102/152 (67%), Gaps = 4/152 (2%)
Query: 114 MVAKPLNKATPVNLALHTYFNLAGHNSGDILSHKIQLFAPEITPVDSELIPTGKITPVKG 173
M P +K T VNLA HTY+NLAGHNSG+IL H I L+A ITPVD +PTG+I VKG
Sbjct: 1 MEEVPKDKPTIVNLAQHTYWNLAGHNSGNILDHSIHLWANHITPVDENTVPTGEIMLVKG 60
Query: 174 TPFDFLEPREIGSRIKEVP-GYDINYVLE--DLKSGHLKRAAIVKEDVSGRKLELWTNQP 230
TPFDF IGS I +V GYD NYVL+ + K G L+ A V++ S R L LWTN P
Sbjct: 61 TPFDFTSFNRIGSTISQVGLGYDDNYVLDCGEEKEG-LRHTAKVRDPSSSRVLNLWTNAP 119
Query: 231 GVQFYTSNMLHDVKGKDGFIYQKFAGFCLETQ 262
GVQFYT+N ++ V+GK G IY K G CLE Q
Sbjct: 120 GVQFYTTNYVNGVQGKGGAIYGKHVGLCLEIQ 151