Jatropha Genome Database
- JcCB0053231.10
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= JcCB0053231.10 - phase: 0
(275 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma13g39920.1 366 e-101
Glyma10g06710.1 313 1e-85
Glyma11g20300.1 305 5e-83
Glyma13g20920.1 301 3e-82
Glyma12g29960.1 301 4e-82
Glyma11g20290.1 281 6e-76
Glyma10g06730.1 261 8e-70
Glyma19g31710.1 258 7e-69
Glyma19g31870.1 254 5e-68
Glyma03g28950.1 246 2e-65
Glyma19g36970.1 233 1e-61
Glyma10g08510.1 196 2e-50
Glyma03g34270.1 192 5e-49
Glyma03g34280.1 178 7e-45
Glyma04g22160.1 151 7e-37
Glyma16g06490.1 114 1e-25
Glyma20g18410.1 95 1e-19
Glyma19g31840.1 77 2e-14
Glyma12g17650.1 70 2e-12
Glyma09g27160.1 65 1e-10
Glyma12g29950.1 52 7e-07
>Glyma13g39920.1
Length = 274
Score = 366 bits (940), Expect = e-101, Method: Compositional matrix adjust.
Identities = 167/268 (62%), Positives = 214/268 (79%), Gaps = 6/268 (2%)
Query: 1 MRKLAFKILFFTRFIFISLLLHTLPISSQEIEDEKDFDYYE-GEKGPSRWGELHPEWSAC 59
+ L FT F+F+SL P+ SQE+EDE +F Y E E GPS WG++HPEWS C
Sbjct: 2 LATLVLICCLFTAFLFLSL-----PVMSQEVEDESEFSYDEKSENGPSNWGDIHPEWSLC 56
Query: 60 NNGSMQSPIDLLNERVEVVSHLGKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGTE 119
NNGSMQSPIDLLNERV++VSHLG+L+ Y+ SNAT+KNRGHD+ +EW GAG +IN TE
Sbjct: 57 NNGSMQSPIDLLNERVQIVSHLGRLQMNYQPSNATIKNRGHDIKLEWVAGAGYLQINETE 116
Query: 120 YILKQCHWHSPSEHSVNGVRFALELHMVHESLDGKVAVIGVMYIIGRPDSFLSSVDKHLR 179
Y+LKQCHWHSPSEH+++G R LELHMVHE+ G+ AVIG++Y IG PDSFLSS+ HL+
Sbjct: 117 YVLKQCHWHSPSEHTIDGKRLDLELHMVHETPSGQSAVIGMLYKIGSPDSFLSSLTDHLK 176
Query: 180 SVAGTRKLQTVVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQVR 239
+++ T + + VVG+V+P+ IK+ ++YYRY GSLT+PPCTENV WTI+ K+++VS+EQVR
Sbjct: 177 AISDTTEAERVVGVVDPRQIKIFYKQYYRYIGSLTIPPCTENVSWTIIRKIQSVSKEQVR 236
Query: 240 LLRVAVHDESDTNARPIQLMNGRSVQLY 267
LLRVAVHDESDTNARP+QL+N R V+LY
Sbjct: 237 LLRVAVHDESDTNARPLQLINNRLVKLY 264
>Glyma10g06710.1
Length = 278
Score = 313 bits (802), Expect = 1e-85, Method: Compositional matrix adjust.
Identities = 149/273 (54%), Positives = 194/273 (71%), Gaps = 6/273 (2%)
Query: 6 FKILFFTRFIFISLLLHTLPISSQEIEDEKDFDYYEG-EKGPSRWGELHPEWSACNNGSM 64
++ I +++LLH+ I++QE+EDE +FDY +G EKGPS WGEL EW C +G M
Sbjct: 7 LRVFLPNLIILVTILLHSTWINAQEVEDESEFDYIKGSEKGPSHWGELKKEWETCKSGKM 66
Query: 65 QSPIDLLNERVEVVSHLGKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGTEYILKQ 124
QSPIDL + RV VV LG+LK+ YK NAT+KNRGHD+ ++WE AG INGTE+ L Q
Sbjct: 67 QSPIDLSSHRVRVVPKLGELKKYYKPQNATVKNRGHDIELKWEGDAGSININGTEFFLHQ 126
Query: 125 CHWHSPSEHSVNGVRFALELHMVHESL----DGKVAVIGVMYIIGRPDSFLSSVDKHLRS 180
CHWHSPSEH++NG R+ LELHMVHES GK+AV+G+ Y IGRPDS L+ + K +++
Sbjct: 127 CHWHSPSEHTINGRRYDLELHMVHESKRINGKGKIAVVGLFYKIGRPDSVLNKLSKFIKT 186
Query: 181 VAGTRKLQTVVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQVRL 240
+ + + +G+ +P IKL +KYYRY GSLTVPPC E V+WTI K+RTVSR QV L
Sbjct: 187 MVDEEEEKN-IGVFDPSKIKLGGKKYYRYMGSLTVPPCIEGVIWTINKKIRTVSRAQVNL 245
Query: 241 LRVAVHDESDTNARPIQLMNGRSVQLYKPESTD 273
LR AVHD ++ NARPIQ +N R +QLY + D
Sbjct: 246 LREAVHDHAEKNARPIQPLNRRGIQLYAQKRKD 278
>Glyma11g20300.1
Length = 279
Score = 305 bits (780), Expect = 5e-83, Method: Compositional matrix adjust.
Identities = 148/278 (53%), Positives = 203/278 (73%), Gaps = 8/278 (2%)
Query: 1 MRKLAFKILFFTRFIFISLLLHTLP-ISSQEIEDEKDFDY-YEGEKGPSRWGELHPEWSA 58
M KLA ++LF + + +L+L P I S +EDE +F+Y + ++GP WG + PEWS
Sbjct: 1 MEKLAKQVLFCS--LLTALVLLPFPVIMSHLVEDESEFNYDVKSKRGPYNWGNIKPEWSI 58
Query: 59 CNNGSMQSPIDLLNERVEVVSHLGKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGT 118
C NGSMQSPI+LLN+RV++ HLGKL Y+ SNATL+NRGH++M+EW G +IN T
Sbjct: 59 CKNGSMQSPINLLNKRVQIAPHLGKLHINYQPSNATLRNRGHNIMLEWLAGTSYLQINET 118
Query: 119 EYILKQCHWHSPSEHSVNGVRFALELHMVHESLDGKVAVIGVMYIIGRPDSFLSSVDKHL 178
+Y+LKQ HWHSPSEH+++G RF LELHMVHE+ G++AVIG++Y GRPD LS + H+
Sbjct: 119 QYVLKQFHWHSPSEHTIDGRRFDLELHMVHEASSGEIAVIGMLYKAGRPDPLLSLLGNHI 178
Query: 179 RSVAGTRKLQTVVGMVNPKSIKL-RSR-KYYRYKGSLTVPPCTENVLWTIVTKVRTVSRE 236
++++ + +G+++P + + RSR +YYRY GSLT PPCTENV WT++T+VR VSRE
Sbjct: 179 KAISDCTGAEIELGVLDPWLVSICRSRTQYYRYSGSLTTPPCTENVAWTVLTEVRYVSRE 238
Query: 237 QVRLLRVAVHDESDTNARPIQLMNGRSVQLYKPESTDN 274
Q+RLLRVAVHD D+NARP+Q +N R V+LY P N
Sbjct: 239 QIRLLRVAVHD--DSNARPLQPINNRLVKLYIPLQDSN 274
>Glyma13g20920.1
Length = 282
Score = 301 bits (772), Expect = 3e-82, Method: Compositional matrix adjust.
Identities = 151/269 (56%), Positives = 191/269 (71%), Gaps = 11/269 (4%)
Query: 6 FKILFFTRFIFISLLLH-TLPISSQEIEDEKDFDYYEG-EKGPSRWGELHPEWSACNNGS 63
++ I +++LLH T IS+QE+EDE +FDY +G EKGPS WGEL EW C +G
Sbjct: 12 LRVFLPNMIILVTILLHSTTWISAQEVEDESEFDYIKGSEKGPSHWGELKKEWETCKSGK 71
Query: 64 MQSPIDLLNERVEVVSHLGKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGTEYILK 123
MQSPIDL + RV VV LG+LK+ Y NAT+KNRGHD+ ++WE+ AG INGTE+ L
Sbjct: 72 MQSPIDLSSHRVRVVPKLGELKKYYTPQNATIKNRGHDIELKWED-AGSININGTEFFLH 130
Query: 124 QCHWHSPSEHSVNGVRFALELHMVHESLD----GKVAVIGVMYIIGRPDSFLSSVDKHLR 179
QCHWHSPSEH++NG R+ LELHMVHES + K AV+G+ Y IGRPD L + K ++
Sbjct: 131 QCHWHSPSEHTINGRRYDLELHMVHESKNIKGKTKFAVVGLFYKIGRPDPVLKKLSKFIK 190
Query: 180 S-VAGTRKLQTVVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQV 238
+ V G K +G+ +P IKL +KYYRY GSLTVPPCTE V+WTI K+RTVSR QV
Sbjct: 191 TMVYGEEK---NIGVFDPSKIKLGGKKYYRYMGSLTVPPCTEGVIWTINKKIRTVSRAQV 247
Query: 239 RLLRVAVHDESDTNARPIQLMNGRSVQLY 267
+LLR AVHD ++ NARPIQ +N R +QLY
Sbjct: 248 KLLREAVHDHAEKNARPIQPINRRGIQLY 276
>Glyma12g29960.1
Length = 219
Score = 301 bits (772), Expect = 4e-82, Method: Compositional matrix adjust.
Identities = 143/231 (61%), Positives = 182/231 (78%), Gaps = 13/231 (5%)
Query: 33 DEKDFDYYE-GEKGPSRWGELHPEWSACNNGSMQSPIDLLNERVEVVSHLGKLKREYKSS 91
DE DF + E E GPSRWG++HP+WS CNNGSMQSPIDLLNERV++ SHLG+L+ Y+ S
Sbjct: 1 DESDFSHDEKSENGPSRWGDIHPKWSLCNNGSMQSPIDLLNERVQIGSHLGRLQMNYQPS 60
Query: 92 NATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELHMVHESL 151
NAT+KNRGHD+ +EW G+G + N T+Y+LKQCHWHSPSEH+++ A ELHM+HE+
Sbjct: 61 NATIKNRGHDIKLEWVAGSGYLQTNETKYVLKQCHWHSPSEHTID---MAKELHMLHETS 117
Query: 152 DGKVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTRKLQTVVGMVNPKSIKLRSRKYYRYKG 211
G+ AVIG++Y IGRPDSFLSS + T + VVG+V+P+ IK+ ++YYRY G
Sbjct: 118 SGQSAVIGILYKIGRPDSFLSS------PFSDTTGAERVVGVVDPRQIKIFYKQYYRYIG 171
Query: 212 SLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHDESDTNARPIQLMNGR 262
SLT+PPCTENV WTI +++VS+EQVRLLRVAVHDESDTNARP+QL+N R
Sbjct: 172 SLTIPPCTENVSWTI---IQSVSKEQVRLLRVAVHDESDTNARPLQLINNR 219
>Glyma11g20290.1
Length = 239
Score = 281 bits (719), Expect = 6e-76, Method: Compositional matrix adjust.
Identities = 135/242 (55%), Positives = 177/242 (73%), Gaps = 10/242 (4%)
Query: 33 DEKDFDY-YEGEKGPSRWGELHPEWSACNNGSMQSPIDLLNERVEVVSHLGKLKREYKSS 91
DE +F+Y + E GP WG + PEWS C GSMQSPIDLLNERV++VSHLG L+ Y+ S
Sbjct: 1 DESEFNYDVKSEIGPFNWGHIKPEWSLCKIGSMQSPIDLLNERVQIVSHLGTLQMNYQPS 60
Query: 92 NATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELHMVHESL 151
NATLKNRGHD+ + W G +INGTEY+LKQ HWHSPSEH+++G R LELHMVHE+
Sbjct: 61 NATLKNRGHDIKLGWLAGTSFLQINGTEYVLKQFHWHSPSEHTIDGRRLDLELHMVHETP 120
Query: 152 DGKVAVIGVMYIIG-RPDSFLSSVDKHLRSVAGTRKLQTVVGMVNPKSIKLRSRK--YYR 208
G+ AVIG++Y G RPD FLS +++ + + VG+++P+ +K+ + YYR
Sbjct: 121 SGQTAVIGILYKAGRRPDPFLS------LAISNSTGAEREVGVMDPRLVKIGTSTTLYYR 174
Query: 209 YKGSLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHDESDTNARPIQLMNGRSVQLYK 268
Y GSLT PPCTEN+ WT++ KV++VS+EQ+RLLR AVHD+ D NARP+Q +N R VQL K
Sbjct: 175 YIGSLTTPPCTENIAWTMLKKVKSVSKEQIRLLRDAVHDDFDANARPLQPINNRLVQLNK 234
Query: 269 PE 270
P+
Sbjct: 235 PK 236
>Glyma10g06730.1
Length = 265
Score = 261 bits (666), Expect = 8e-70, Method: Compositional matrix adjust.
Identities = 123/242 (50%), Positives = 166/242 (68%), Gaps = 3/242 (1%)
Query: 32 EDEKDFDYY-EGEKGPSRWGELHPEWSACNNGSMQSPIDLLNERVEVVSHLGKLKREYKS 90
EDE++FDY EKGP WGE+ EWS+C NG +QSPIDL RV+++ + Y +
Sbjct: 18 EDEREFDYIGASEKGPRHWGEMKKEWSSCKNGHLQSPIDLSCARVKIIPRCRQPDIYYTA 77
Query: 91 SNATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELHMVHES 150
+NAT+ NRGHD+ + W++ AG +NGTEY LKQCHWHSPSEHS+NG R+ LE+HMVH S
Sbjct: 78 TNATIINRGHDIAVYWKDDAGSVYLNGTEYFLKQCHWHSPSEHSMNGRRYDLEMHMVHVS 137
Query: 151 LDGKVAVIGVMYIIG-RPDSFLSSVDKHLRSVAGTRKLQTVVGMVNPKSIKLRSRKYYRY 209
D K+ V+G +Y G RPD FLS ++K ++ + +++ +G NP ++ R YYRY
Sbjct: 138 PDNKIFVVGALYKFGHRPDRFLSQLEKDIKHLVDN-EVEREIGETNPSGLQTRGNAYYRY 196
Query: 210 KGSLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHDESDTNARPIQLMNGRSVQLYKP 269
GSLT PPCTE V+W I K+RTVS EQVRLLR AVHD ++ NARP+Q R + ++
Sbjct: 197 VGSLTTPPCTEGVIWNIDRKIRTVSEEQVRLLREAVHDHAERNARPMQRRYNRDILYFRS 256
Query: 270 ES 271
+S
Sbjct: 257 KS 258
>Glyma19g31710.1
Length = 241
Score = 258 bits (658), Expect = 7e-69, Method: Compositional matrix adjust.
Identities = 127/238 (53%), Positives = 161/238 (67%), Gaps = 5/238 (2%)
Query: 33 DEKDFDYYEGEK-GPSRWGELHPEWSACNNGSMQSPIDLLNERVEVVSHLGKLKREYKSS 91
DEK F Y G GP W ++ +W C +G +QSPIDLL++RV+ + LGKLK+ YKS+
Sbjct: 1 DEK-FTYAIGSSTGPENWWHVNQKWKTCGDGKLQSPIDLLDQRVQELPQLGKLKKAYKSA 59
Query: 92 NATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELHMVHESL 151
A LKN GHD+++EW+ AG IN T Y L QCHWH+PSEH++NG +F LELH VH+S
Sbjct: 60 PAVLKNSGHDIVLEWKGDAGHLNINETYYNLIQCHWHTPSEHTLNGTKFDLELHAVHKSS 119
Query: 152 DGKVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTRKLQTVVGMVNPKSIKLRSRKYYRYKG 211
G+ AVIG++Y IG PD F S K L + + VG++NP+ IK +SR YYRY G
Sbjct: 120 KGEFAVIGILYKIGSPDPFFS---KLLNDIKSSVDKDIDVGVINPREIKFKSRPYYRYVG 176
Query: 212 SLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHDESDTNARPIQLMNGRSVQLYKP 269
SLT PPCTE V+WTIV KVRTVS EQ+ L+ AVH + NARP Q + GR V LY P
Sbjct: 177 SLTTPPCTEGVVWTIVKKVRTVSSEQLSALKGAVHHGYEENARPTQELGGRQVWLYGP 234
>Glyma19g31870.1
Length = 264
Score = 254 bits (650), Expect = 5e-68, Method: Compositional matrix adjust.
Identities = 128/260 (49%), Positives = 170/260 (65%), Gaps = 7/260 (2%)
Query: 13 RFIFISLLLHTLPISSQE--IEDEKDFDYYEGEK-GPSRWGELHPEWSACNNGSMQSPID 69
+F F S + +S+E ++DE ++ Y G GP W ++ +W C +G +QSPID
Sbjct: 2 KFDFPSFPNEIMEKTSKENALQDE-EYTYAIGSSTGPENWWRINQKWKTCGDGKLQSPID 60
Query: 70 LLNERVEVVSHLGKLKREYKSSNATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHS 129
LL++RV+ + LGKLK+ YKS+ A LKNRGHD+++EW+ AG IN T Y L QCHWH+
Sbjct: 61 LLDQRVQELPQLGKLKKAYKSAPAVLKNRGHDIVLEWKGDAGQLNINETYYNLIQCHWHT 120
Query: 130 PSEHSVNGVRFALELHMVHESLDGKVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTRKLQT 189
PSEH++NG +F LELH VH + G+ AVIG++Y IG PD F S K L + +
Sbjct: 121 PSEHTLNGTKFDLELHAVHTTSKGEFAVIGILYKIGSPDPFFS---KLLNDIKSSVDKDI 177
Query: 190 VVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHDES 249
VG++N + IK +SR YYRY GSLT P CTE V+WTIV KVRTVS EQ+ L+ AVH
Sbjct: 178 DVGLINSREIKFKSRPYYRYVGSLTTPACTEGVVWTIVKKVRTVSSEQLSALKGAVHHGY 237
Query: 250 DTNARPIQLMNGRSVQLYKP 269
+ NARP Q + GR V LY P
Sbjct: 238 EENARPTQELGGRQVWLYGP 257
>Glyma03g28950.1
Length = 272
Score = 246 bits (629), Expect = 2e-65, Method: Compositional matrix adjust.
Identities = 118/238 (49%), Positives = 161/238 (67%), Gaps = 6/238 (2%)
Query: 32 EDEKDFDYYEGE-KGPSRWGELHPEWSACNNGSMQSPIDLLNERVEVVSHLGKLKREYKS 90
EDE +F + EG KGP WG+++P+W C +G +QSPIDL ++ + + LGKL + YK
Sbjct: 34 EDE-EFTFAEGSIKGPKNWGQINPKWKVCGDGKLQSPIDLSDQMAQELPQLGKLDKVYKP 92
Query: 91 SNATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELHMVHES 150
+ L NRGHD+M++W AG INGT Y L QCHWH+PSEH++NG +F LELH VH++
Sbjct: 93 APVVLINRGHDIMLQWNGDAGQLNINGTFYNLMQCHWHTPSEHTLNGTKFDLELHAVHKT 152
Query: 151 LDGKVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTRKLQTVVGMVNPKSIKLRSRKYYRYK 210
G++AVIG+ Y IG D LS + ++S+ + + VG++NP I +++YYRY
Sbjct: 153 SKGEIAVIGIWYKIGHSDPLLSKLLNDIKSI---KDKKIDVGVINPGDIMFETKEYYRYV 209
Query: 211 GSLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHDESDTNARPIQLMNGRSVQLYK 268
GSLT PPCTE V+WTIV +VRTVS EQ+ L+ AVH + NARP Q + GR V LYK
Sbjct: 210 GSLTTPPCTEGVVWTIVKEVRTVSTEQLNALKGAVH-HGEENARPTQELGGRQVLLYK 266
>Glyma19g36970.1
Length = 277
Score = 233 bits (595), Expect = 1e-61, Method: Compositional matrix adjust.
Identities = 126/267 (47%), Positives = 167/267 (62%), Gaps = 16/267 (5%)
Query: 14 FIFISLLLHTLPISSQEIEDEKDFDYYE-GEKGPSRWGELHPEWSACNNGSMQSPIDLLN 72
+F S L L DE ++ Y E GP WG+L EW+AC G +QSPIDL
Sbjct: 16 ILFCSTLTSAL--------DEPEYGYNEKSANGPQHWGDLKEEWAACKIGQIQSPIDLST 67
Query: 73 ERVEVVSHLGKLKR-EYKSSNATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHSPS 131
VEV+ LG LK YK +AT+ NRGHD+ + WE AG EINGT + L+Q HWH P+
Sbjct: 68 NGVEVIPKLGGLKYWNYKPQHATVSNRGHDVAVIWEGDAGSIEINGTPFFLQQAHWHWPA 127
Query: 132 EHSVNGVRFALELHMVHES--LDG--KVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTRKL 187
EH++NG R+ LELHMVH S DG K AV+GV+Y G PD LS + K++
Sbjct: 128 EHTINGRRYDLELHMVHVSPQPDGTNKTAVVGVLYKYGSPDPLLSKLGKYIMDTPEEDDE 187
Query: 188 QTVVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHD 247
++ VG+V+P I S+ YYRY GSLT PPCTE+++WT+ KVRTVSR QV+LL+ V
Sbjct: 188 KS-VGVVDPSEIMKGSKMYYRYMGSLTAPPCTEDIIWTVDKKVRTVSRGQVKLLKDTVLK 246
Query: 248 -ESDTNARPIQLMNGRSVQLYKPESTD 273
+ NARP+Q +N R++QLY P++ +
Sbjct: 247 YYAKWNARPLQPLNQRAIQLYVPKTKN 273
>Glyma10g08510.1
Length = 281
Score = 196 bits (499), Expect = 2e-50, Method: Compositional matrix adjust.
Identities = 96/234 (41%), Positives = 137/234 (58%), Gaps = 6/234 (2%)
Query: 40 YEGEKGPSRWGELHPEWSACNNGSMQSPIDLLNERVEVVSHLGKLKREYKSSNATLKNRG 99
Y G GP WG L P ++AC++G QSP++L+ + + L L R Y +NATL +
Sbjct: 30 YAGPNGPEYWGSLSPSYAACSHGKSQSPVELMKTDIVINKQLKNLNRNYLPTNATLVDNI 89
Query: 100 HDMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELHMVHESLDG-KVAVI 158
++ + +E G ING Y LKQ HWHSPSEH NG ELH+VH + D +AV+
Sbjct: 90 FNIGVHFEGKVGDININGKNYSLKQLHWHSPSEHMANGRIHDAELHLVHLTEDNYNIAVV 149
Query: 159 GVMYIIGRPDSFLSSVDKHLRSV-----AGTRKLQTVVGMVNPKSIKLRSRKYYRYKGSL 213
V+Y +G PD +S + L + AG + Q +G + + I S +YYRY GSL
Sbjct: 150 AVLYKLGDPDPLISQFEDKLVDLEKEIRAGNKDAQIAIGTFDVEEINRSSHRYYRYVGSL 209
Query: 214 TVPPCTENVLWTIVTKVRTVSREQVRLLRVAVHDESDTNARPIQLMNGRSVQLY 267
T PPC E V W I+ K+RT+S++Q+ LL+ + E NARP+Q +NGR +Q+Y
Sbjct: 210 TTPPCKEGVTWNILGKLRTLSKKQLELLKAPLGPEFKHNARPLQQLNGRKIQMY 263
>Glyma03g34270.1
Length = 239
Score = 192 bits (487), Expect = 5e-49, Method: Compositional matrix adjust.
Identities = 102/215 (47%), Positives = 136/215 (63%), Gaps = 8/215 (3%)
Query: 33 DEKDFDYYE-GEKGPSRWGELHPEWSACNNGSMQSPIDLLNERVEVVSHLGKLKR-EYKS 90
DE + Y E GP WG+L EW+AC G +QSPIDL VEV+ LG LK YK
Sbjct: 27 DEPGYGYNEKSANGPRYWGDLKEEWAACKIGKIQSPIDLSTNGVEVIPKLGGLKYWNYKP 86
Query: 91 SNATLKNRGHDMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELHMVHES 150
+AT+ NRGHD+ + W AG +INGT + L+Q HWH PSEH++NG R+ LELHMVH S
Sbjct: 87 QHATVSNRGHDVAVIWGGDAGSIDINGTPFFLQQAHWHWPSEHTINGRRYDLELHMVHVS 146
Query: 151 --LDG--KVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTRKLQTVVGMVNPKSIKLRSRKY 206
DG K AV+G++Y G PD LS + K++ + + ++ VG+++P I S+ Y
Sbjct: 147 PQPDGTNKTAVVGILYKYGSPDPLLSKLGKYITEIPEEDEEKS-VGVIDPSKIMKGSKMY 205
Query: 207 YRYKGSLTVPPCTENVLWTIVTKVRTVSREQVRLL 241
YRY GSLTVPPCTE ++WT+ K+ T + RLL
Sbjct: 206 YRYMGSLTVPPCTEGIIWTVDKKL-THTHTHERLL 239
>Glyma03g34280.1
Length = 221
Score = 178 bits (451), Expect = 7e-45, Method: Compositional matrix adjust.
Identities = 96/213 (45%), Positives = 124/213 (58%), Gaps = 26/213 (12%)
Query: 43 EKGPSRWGELHPEWSACNNGSMQSPIDLLNERVEVVSHLGKLKR-EYKSSNATLKNRGHD 101
E GP WG+L EW+ C G MQSPIDL VEV+ LG LK YK +A + NRGHD
Sbjct: 9 ENGPQHWGDLKEEWADCKIGQMQSPIDLSTNGVEVIPKLGGLKYWNYKPQHAIVSNRGHD 68
Query: 102 MMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELHMVHESL--DG--KVAV 157
+ + WE+ AG +INGT + L+Q HWH P+EH++NG R+ LELHMVH S DG K AV
Sbjct: 69 VAVMWEDDAGSIDINGTLFFLQQAHWHWPAEHTINGRRYDLELHMVHVSTQPDGTNKTAV 128
Query: 158 IGVMYIIGRPDSFLSSV----------------DKHLRSVAGTRKL-----QTVVGMVNP 196
+G++Y G PD LS V KH S + + VG+++P
Sbjct: 129 VGILYKYGSPDPLLSKVRTCNNVYNKIKEQKKKTKHAASYLSILHIPEEDEEKSVGVIDP 188
Query: 197 KSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTK 229
I S+ YYRY GSLT PPCTE+++WT+ K
Sbjct: 189 SEIIKGSKMYYRYMGSLTAPPCTEDIIWTVDKK 221
>Glyma04g22160.1
Length = 163
Score = 151 bits (382), Expect = 7e-37, Method: Compositional matrix adjust.
Identities = 77/154 (50%), Positives = 98/154 (63%), Gaps = 6/154 (3%)
Query: 105 EWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELHMVHESLDGKVAVIGVMYII 164
EW+ AG IN T Y L QCHWH+PSEH +NG +F LELH + + G+ AVIG++Y I
Sbjct: 12 EWKGDAGHLNINETYYNLIQCHWHTPSEHMLNGTKFDLELHAIRTTSKGEFAVIGILYKI 71
Query: 165 GRPDSFLSSVDKHLRSVAGTRKLQTVVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLW 224
G PD F S K L + + VG++NP+ IK +SR YYRY GSLT PPCTE V+
Sbjct: 72 GSPDPFFS---KLLNDIKSSVDKDIDVGVINPREIKFKSRPYYRYVGSLTTPPCTEGVVL 128
Query: 225 TIVTKVRTVSREQVRLLRVAVHDES---DTNARP 255
TIV KVRTVS EQ+ R + ++ + NARP
Sbjct: 129 TIVKKVRTVSSEQLTPTRSIMFPKTNGYEENARP 162
>Glyma16g06490.1
Length = 111
Score = 114 bits (284), Expect = 1e-25, Method: Compositional matrix adjust.
Identities = 53/110 (48%), Positives = 71/110 (64%), Gaps = 1/110 (0%)
Query: 37 FDYYEG-EKGPSRWGELHPEWSACNNGSMQSPIDLLNERVEVVSHLGKLKREYKSSNATL 95
F Y +G GP W L+P+W C G +QSPIDL + V+V+ LG+L++ YK + A L
Sbjct: 1 FSYAKGTSNGPENWWHLNPKWKVCQYGKLQSPIDLRDRWVKVLPQLGELQKVYKPAPAVL 60
Query: 96 KNRGHDMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELH 145
KN GH + + W AG ING Y L Q HWH+PSEH++NG++F LELH
Sbjct: 61 KNMGHYITVRWNGDAGQLRINGNYYKLIQFHWHTPSEHTLNGLKFDLELH 110
>Glyma20g18410.1
Length = 150
Score = 94.7 bits (234), Expect = 1e-19, Method: Compositional matrix adjust.
Identities = 43/90 (47%), Positives = 57/90 (63%)
Query: 101 DMMMEWENGAGITEINGTEYILKQCHWHSPSEHSVNGVRFALELHMVHESLDGKVAVIGV 160
D +EW+ AG IN T Y L QCHWH+PSEH++NG +FALELH VH + G+ VIG+
Sbjct: 41 DQRLEWKGDAGQLNINETYYNLTQCHWHTPSEHTLNGTKFALELHEVHTTSKGEFVVIGI 100
Query: 161 MYIIGRPDSFLSSVDKHLRSVAGTRKLQTV 190
+Y IG PD FLS +++ R L +
Sbjct: 101 LYKIGLPDRFLSKKKQYIDKKEKKRLLNFI 130
>Glyma19g31840.1
Length = 72
Score = 77.4 bits (189), Expect = 2e-14, Method: Composition-based stats.
Identities = 33/72 (45%), Positives = 50/72 (69%), Gaps = 1/72 (1%)
Query: 33 DEKDFDYYEGEK-GPSRWGELHPEWSACNNGSMQSPIDLLNERVEVVSHLGKLKREYKSS 91
+ +++ Y G GP W ++P+W C +G +QSPIDLL++RV+ + LGKLK+ YKS+
Sbjct: 1 EHEEYTYAIGSSTGPENWWRINPKWKTCGDGKLQSPIDLLDQRVQELPQLGKLKKAYKSA 60
Query: 92 NATLKNRGHDMM 103
A LKN GHD++
Sbjct: 61 PAVLKNSGHDIV 72
>Glyma12g17650.1
Length = 124
Score = 70.5 bits (171), Expect = 2e-12, Method: Compositional matrix adjust.
Identities = 45/108 (41%), Positives = 60/108 (55%), Gaps = 12/108 (11%)
Query: 135 VNGVRFALELHMVHES--LDG--KVAVIGVMYIIGRPDSFLSSVDKHLRSVAGTRKLQTV 190
V + + LELHMVH S LDG K AV+G++Y G PD LS V K +
Sbjct: 22 VQVIGYDLELHMVHVSIQLDGTNKTAVVGILYKYGSPDPLLSKVRK-------CNNVYYK 74
Query: 191 VGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTKV-RTVSREQ 237
+ K+ ++ YYRY GSLT PPCTE+++WTI K T+ RE+
Sbjct: 75 IKEQKKKTKHAGNKMYYRYMGSLTAPPCTEDIIWTIDNKFSHTLPRER 122
>Glyma09g27160.1
Length = 56
Score = 64.7 bits (156), Expect = 1e-10, Method: Compositional matrix adjust.
Identities = 32/58 (55%), Positives = 38/58 (65%), Gaps = 11/58 (18%)
Query: 172 SSVDKHLRSVAGTRKLQTVVGMVNPKSIKLRSRKYYRYKGSLTVPPCTENVLWTIVTK 229
SSVDK + VG++NP+ IK +SR YYRY GSLT PPCTE V+WTIV K
Sbjct: 10 SSVDKDID-----------VGVINPREIKFKSRPYYRYVGSLTTPPCTEGVVWTIVKK 56
>Glyma12g29950.1
Length = 69
Score = 52.0 bits (123), Expect = 7e-07, Method: Composition-based stats.
Identities = 29/71 (40%), Positives = 42/71 (59%), Gaps = 7/71 (9%)
Query: 36 DFDY-YEGEKGPSRWGELHPEWSACNNGSMQSPIDL--LNERVEVVSHLGKLKREYKSSN 92
+F+Y GP WG +P+W C NG QSPI+L L+ VE +S ++R Y+ +N
Sbjct: 3 EFNYDLSSPNGPLNWGN-NPQWQLCKNGKNQSPINLQKLSADVEFIS---GIQRNYQPAN 58
Query: 93 ATLKNRGHDMM 103
ATL + HD+M
Sbjct: 59 ATLISSEHDIM 69