Miyakogusa Predicted Gene
- Lj5g3v0310140.4
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= Lj5g3v0310140.4 tr|G7ICD6|G7ICD6_MEDTR Sigma factor sigB
regulation protein rsbQ OS=Medicago truncatula
GN=MTR_1g018,78.49,0,SIGMA FACTOR SIGB REGULATION PROTEIN RSBQ,NULL;
ALPHA/BETA HYDROLASE FOLD-CONTAINING PROTEIN,NULL; a,CUFF.52840.4
(268 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma17g35360.1 426 e-119
Glyma0092s00240.1 420 e-118
Glyma11g05440.1 321 5e-88
Glyma05g21930.1 320 1e-87
Glyma17g17910.1 315 5e-86
Glyma01g39850.1 314 6e-86
Glyma17g17890.1 305 3e-83
Glyma07g09840.1 238 3e-63
Glyma09g31970.1 237 8e-63
Glyma20g08560.1 231 5e-61
Glyma03g36500.1 229 3e-60
Glyma08g04450.1 226 1e-59
Glyma05g35270.1 179 2e-45
Glyma19g39160.1 131 7e-31
Glyma05g22010.1 77 1e-14
>Glyma17g35360.1
Length = 266
Score = 426 bits (1094), Expect = e-119, Method: Compositional matrix adjust.
Identities = 195/255 (76%), Positives = 227/255 (89%)
Query: 1 MATSILDVHNVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTINP 60
M TSILD NV VEGSG++Y+V HG GTD+S W+R+LPYF NY VIL+DLV AG++NP
Sbjct: 1 MGTSILDALNVRVEGSGDKYLVLAHGFGTDQSAWQRVLPYFTRNYSVILYDLVCAGSVNP 60
Query: 61 DYFDFRRYSTLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIG 120
D+FD+RRY+TLD YVDDLL ILDALRV RCA+VGHS+SA IG+LASIRRP LFSKLILIG
Sbjct: 61 DHFDYRRYTTLDAYVDDLLNILDALRVPRCAYVGHSISAMIGMLASIRRPDLFSKLILIG 120
Query: 121 ASPRFLNDESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPEAVQEFSRTLFN 180
ASPRFLND+ Y GGFE EIE+VFSAMEANY+AWV G+APL VGADVP AV+EFSRTLFN
Sbjct: 121 ASPRFLNDKDYHGGFEQGEIEQVFSAMEANYEAWVNGFAPLAVGADVPAAVREFSRTLFN 180
Query: 181 MRPDITLFVSRTVFNSDLRGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEW 240
MRPDI+LFVSRTVFNSDLRGILGLV VPCCIMQTA+D+SVPA+ A YM++H+ GK+T++W
Sbjct: 181 MRPDISLFVSRTVFNSDLRGILGLVNVPCCIMQTARDMSVPASVATYMRDHIAGKSTIQW 240
Query: 241 LNTEGHLPHLSAPTY 255
L+TEGHLPHLSAP+Y
Sbjct: 241 LDTEGHLPHLSAPSY 255
>Glyma0092s00240.1
Length = 266
Score = 420 bits (1080), Expect = e-118, Method: Compositional matrix adjust.
Identities = 192/255 (75%), Positives = 226/255 (88%)
Query: 1 MATSILDVHNVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTINP 60
M TSILD NV VEGSG++Y+ HG GTD+S W+R+LPYF NY VIL+DLV AG++NP
Sbjct: 1 MGTSILDALNVRVEGSGDKYLFLAHGFGTDQSAWQRVLPYFTRNYSVILYDLVCAGSVNP 60
Query: 61 DYFDFRRYSTLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIG 120
D+FD+RRY+TLD YVDDLL ILDALRV RC +VGHS+SA IG+LASIRRP LFSKLILIG
Sbjct: 61 DHFDYRRYTTLDAYVDDLLNILDALRVPRCVYVGHSISAMIGMLASIRRPDLFSKLILIG 120
Query: 121 ASPRFLNDESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPEAVQEFSRTLFN 180
ASPRFLND+ Y GGFE EIE+VFSAMEANY+AWV G+APL VGADVP AV+EFSRTLFN
Sbjct: 121 ASPRFLNDKDYHGGFEQGEIEQVFSAMEANYEAWVNGFAPLSVGADVPAAVREFSRTLFN 180
Query: 181 MRPDITLFVSRTVFNSDLRGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEW 240
MRPDI+LFVSRTVF+SDLRGILGLV VPCCIMQTA+D+SVPA+ A YM++H+GGK++++W
Sbjct: 181 MRPDISLFVSRTVFHSDLRGILGLVNVPCCIMQTARDMSVPASVATYMKDHIGGKSSIQW 240
Query: 241 LNTEGHLPHLSAPTY 255
L+TEGHLPHLSAP+Y
Sbjct: 241 LDTEGHLPHLSAPSY 255
>Glyma11g05440.1
Length = 272
Score = 321 bits (822), Expect = 5e-88, Method: Compositional matrix adjust.
Identities = 147/248 (59%), Positives = 187/248 (75%), Gaps = 1/248 (0%)
Query: 7 DVHNVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTINPDYFDFR 66
+ HNV + GSG EYIV HG GTD+SVWK +PY N++VIL+D + AGT NPDYFDF
Sbjct: 6 EAHNVKILGSGTEYIVLAHGFGTDQSVWKHFVPYLVDNFRVILYDNMGAGTTNPDYFDFE 65
Query: 67 RYSTLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIGASPRFL 126
R+S L+ Y DLLAIL+ L+V C FVGHS+SA IG +ASI RP LF+KLI++GASPR+L
Sbjct: 66 RHSILEGYASDLLAILEELQVESCIFVGHSVSAMIGAIASISRPDLFTKLIMVGASPRYL 125
Query: 127 NDESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPE-AVQEFSRTLFNMRPDI 185
ND Y GGFE +++++F AM ANY+AW G+APL VG D+ AVQEFSRTLFNMRPDI
Sbjct: 126 NDVEYYGGFEQEDLDQLFDAMAANYKAWCYGFAPLAVGGDMESVAVQEFSRTLFNMRPDI 185
Query: 186 TLFVSRTVFNSDLRGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEWLNTEG 245
L VSRT+F SD+R IL LV VPC I+Q KD++VP + Y+ +H+G ++ VE + T+G
Sbjct: 186 ALIVSRTIFQSDMRQILSLVSVPCHIIQAEKDMAVPMMISEYLHQHIGAESIVEVMATDG 245
Query: 246 HLPHLSAP 253
HLP LS+P
Sbjct: 246 HLPQLSSP 253
>Glyma05g21930.1
Length = 272
Score = 320 bits (820), Expect = 1e-87, Method: Compositional matrix adjust.
Identities = 147/248 (59%), Positives = 189/248 (76%), Gaps = 1/248 (0%)
Query: 7 DVHNVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTINPDYFDFR 66
+ HNV V GSG +IV HG GTD+SVWK ++PY ++V+L+D + AGT NPDYFDF
Sbjct: 6 EAHNVKVLGSGTRHIVLAHGFGTDQSVWKHLVPYLLDEFRVVLYDNMGAGTTNPDYFDFE 65
Query: 67 RYSTLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIGASPRFL 126
RYSTL+ Y DLLAIL+ LRV C FVGHS+SA IG +ASI RP+LF+K+I+I ASPR+L
Sbjct: 66 RYSTLEGYAHDLLAILEELRVDSCIFVGHSVSAMIGTIASISRPELFAKIIMISASPRYL 125
Query: 127 NDESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPE-AVQEFSRTLFNMRPDI 185
ND Y GGFE +++++F+AM ANY+AW G+AP+ VG D+ AVQEFSRTLFNMRPDI
Sbjct: 126 NDMEYFGGFEQEDLDQLFNAMAANYKAWCSGFAPMAVGGDMESVAVQEFSRTLFNMRPDI 185
Query: 186 TLFVSRTVFNSDLRGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEWLNTEG 245
L V +T+F SD+R IL LV VPC I+Q+ KDL+VP A Y+ +H+GG + VE ++TEG
Sbjct: 186 ALSVLQTIFQSDIRQILNLVSVPCHIIQSMKDLAVPVVVAEYLHQHIGGDSIVEVMSTEG 245
Query: 246 HLPHLSAP 253
HLP LS+P
Sbjct: 246 HLPQLSSP 253
>Glyma17g17910.1
Length = 271
Score = 315 bits (806), Expect = 5e-86, Method: Compositional matrix adjust.
Identities = 144/248 (58%), Positives = 189/248 (76%), Gaps = 1/248 (0%)
Query: 7 DVHNVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTINPDYFDFR 66
+ HNV V GSG +IV HG GTD+SVWK ++P+ ++V+L+D + AGT NPDYFDF
Sbjct: 6 EAHNVKVLGSGTRHIVLAHGFGTDQSVWKHLVPHLLDEFRVVLYDNMGAGTTNPDYFDFE 65
Query: 67 RYSTLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIGASPRFL 126
RYSTL+ Y DLLAIL+ LRV C FVGHS+SA IG +ASI RP+LF+K+I+I ASPR++
Sbjct: 66 RYSTLEGYAYDLLAILEELRVDSCIFVGHSVSAMIGTVASISRPELFAKIIMISASPRYV 125
Query: 127 NDESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPE-AVQEFSRTLFNMRPDI 185
ND Y GGFE +++++F+AM ANY+AW G+AP+ +G D+ AVQEFSRTLFNMRPDI
Sbjct: 126 NDMEYFGGFEQEDLDQLFNAMAANYKAWCSGFAPMAIGGDMESVAVQEFSRTLFNMRPDI 185
Query: 186 TLFVSRTVFNSDLRGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEWLNTEG 245
L V +T+F SD+R IL LV VPC I+Q+ KDL+VP A Y+ +H+GG + VE ++TEG
Sbjct: 186 ALSVLQTIFRSDMRQILNLVTVPCHIIQSMKDLAVPVVVAEYLHQHIGGASIVEVMSTEG 245
Query: 246 HLPHLSAP 253
HLP LS+P
Sbjct: 246 HLPQLSSP 253
>Glyma01g39850.1
Length = 272
Score = 314 bits (805), Expect = 6e-86, Method: Compositional matrix adjust.
Identities = 144/248 (58%), Positives = 185/248 (74%), Gaps = 1/248 (0%)
Query: 7 DVHNVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTINPDYFDFR 66
+ HNV + G G E IV HG GTD+SVWK ++PY +Y+VIL+D + AGT NPDYFDF
Sbjct: 6 EAHNVKILGPGTECIVLAHGFGTDQSVWKHLVPYLVDDYRVILYDNMGAGTTNPDYFDFE 65
Query: 67 RYSTLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIGASPRFL 126
R+S+L+ Y DLLAIL+ L+V C FVGHS+SA IG +ASI RP LF+KLI++ ASPR+L
Sbjct: 66 RHSSLEGYASDLLAILEELQVESCIFVGHSVSAMIGAIASISRPDLFTKLIMVSASPRYL 125
Query: 127 NDESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPE-AVQEFSRTLFNMRPDI 185
ND Y GGFE ++ ++F AM ANY+AW G+APL VG D+ AVQEFSRTLFNMRPDI
Sbjct: 126 NDVEYYGGFEQEDLNQLFDAMAANYKAWCYGFAPLAVGGDMESVAVQEFSRTLFNMRPDI 185
Query: 186 TLFVSRTVFNSDLRGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEWLNTEG 245
L VSRT+F SD+R IL LV VPC I+Q KD++VP + Y+ +H+G ++ VE + T+G
Sbjct: 186 ALIVSRTIFQSDMRQILSLVSVPCHIIQAEKDMAVPVMISEYLHQHIGAESIVEVMATDG 245
Query: 246 HLPHLSAP 253
HLP LS+P
Sbjct: 246 HLPQLSSP 253
>Glyma17g17890.1
Length = 272
Score = 305 bits (782), Expect = 3e-83, Method: Compositional matrix adjust.
Identities = 139/248 (56%), Positives = 185/248 (74%), Gaps = 1/248 (0%)
Query: 7 DVHNVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTINPDYFDFR 66
+ HNV + G GNE ++ HG GTD+SVWK ++P+ +Y+VIL+D + AGT NPDYFDF
Sbjct: 6 EAHNVRIVGKGNEIVILAHGFGTDQSVWKHLVPHLVDDYQVILYDNMGAGTTNPDYFDFE 65
Query: 67 RYSTLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIGASPRFL 126
RY T+D +V DLLAIL L+V C FVGHS+SA +G+LASI P LF+KLIL+ ASPRFL
Sbjct: 66 RYYTIDGFVYDLLAILQELQVQSCIFVGHSLSAMVGLLASISHPHLFTKLILVSASPRFL 125
Query: 127 NDESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPE-AVQEFSRTLFNMRPDI 185
ND Y GGF+ ++ +++ + +NY+AW G+APL++G D+ AVQEFSRTLFNMRPDI
Sbjct: 126 NDSEYFGGFQQEDLTQLYDGIRSNYKAWCSGFAPLVIGGDMDSVAVQEFSRTLFNMRPDI 185
Query: 186 TLFVSRTVFNSDLRGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEWLNTEG 245
L +++T+F D+R IL V VPC I+Q+ KDL+ P A Y+Q++LGGKT VE + TEG
Sbjct: 186 ALSLAQTIFQFDMRPILCHVTVPCHIIQSTKDLAAPVVVAEYLQQNLGGKTIVEVMPTEG 245
Query: 246 HLPHLSAP 253
HLP LS+P
Sbjct: 246 HLPQLSSP 253
>Glyma07g09840.1
Length = 278
Score = 238 bits (608), Expect = 3e-63, Method: Compositional matrix adjust.
Identities = 109/244 (44%), Positives = 166/244 (68%), Gaps = 1/244 (0%)
Query: 10 NVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTI-NPDYFDFRRY 68
NV +GSG+E IVF HG GTD+S+W +I P F NY+V+LFD F+G + +P +D +Y
Sbjct: 22 NVRSQGSGSETIVFAHGYGTDQSIWDKITPSFAENYRVVLFDWPFSGAVKDPSLYDPLKY 81
Query: 69 STLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIGASPRFLND 128
++L+ + D+L+ ++D + + FVGHSMS IG LASI+RP+LF +LIL+GASPR++N
Sbjct: 82 TSLEAFADELITLMDQMDLKAVIFVGHSMSGMIGCLASIKRPELFKRLILLGASPRYINT 141
Query: 129 ESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPEAVQEFSRTLFNMRPDITLF 188
+ Y GGF ++IE++ +E NY+ WV ++ L+V + +V +F L MR ++
Sbjct: 142 DDYEGGFTSSDIEQLLKNIEFNYENWVSAFSLLVVDPNDEPSVNKFRECLKKMRAEVPAS 201
Query: 189 VSRTVFNSDLRGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEWLNTEGHLP 248
+++TVF SD R IL V+ PC I+QT+ D+ VP AA YM+ + GK T+E ++T+GH P
Sbjct: 202 LAKTVFYSDYRDILEKVETPCTIIQTSSDIVVPHKAAVYMESKIKGKVTLEVVDTKGHFP 261
Query: 249 HLSA 252
L+A
Sbjct: 262 QLTA 265
>Glyma09g31970.1
Length = 278
Score = 237 bits (605), Expect = 8e-63, Method: Compositional matrix adjust.
Identities = 107/244 (43%), Positives = 166/244 (68%), Gaps = 1/244 (0%)
Query: 10 NVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTI-NPDYFDFRRY 68
NV +G G+E IVF HG GTD+S+W +I P F NY+V+LFD F+G + +P +D +Y
Sbjct: 22 NVRSQGLGSETIVFAHGYGTDQSIWDKITPSFAENYRVVLFDWPFSGAVKDPSLYDPLKY 81
Query: 69 STLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIGASPRFLND 128
++L+ + D+ + ++D + + FVGHSMS IG LASI+RP+LF +LIL+GASPR++N
Sbjct: 82 TSLEAFADEFITLMDQMDLKVVTFVGHSMSGMIGCLASIKRPELFKRLILLGASPRYINT 141
Query: 129 ESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPEAVQEFSRTLFNMRPDITLF 188
+ Y GGF ++IE++ +E+NY+ WV ++ L+V + +V +F L MR ++
Sbjct: 142 DDYEGGFTSSDIEQLLQNIESNYENWVSAFSLLVVDPNDEPSVNKFRECLKRMRAEVAAS 201
Query: 189 VSRTVFNSDLRGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEWLNTEGHLP 248
+++TVF SD R IL V+ PC I+QT+ D+ VP AA YM+ + GK T+E+++T+GH P
Sbjct: 202 LAKTVFYSDYRDILDKVETPCTIIQTSSDIVVPHNAAVYMKNKIKGKVTLEFVDTKGHFP 261
Query: 249 HLSA 252
L+A
Sbjct: 262 QLTA 265
>Glyma20g08560.1
Length = 269
Score = 231 bits (590), Expect = 5e-61, Method: Compositional matrix adjust.
Identities = 101/244 (41%), Positives = 163/244 (66%), Gaps = 1/244 (0%)
Query: 10 NVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTI-NPDYFDFRRY 68
N GSGNE IV HG GTD+S+W +I+P NY ++LFD F+G + + +D +Y
Sbjct: 13 NARTIGSGNETIVLCHGFGTDQSIWDKIIPLLAENYTLVLFDWPFSGAVTDKSLYDHAKY 72
Query: 69 STLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIGASPRFLND 128
++ +PY DDL+ I+D + + FVGHSMSA IG +AS ++P+LF +LIL+ ASPR++N
Sbjct: 73 TSFEPYADDLITIIDEMDLKCVTFVGHSMSAMIGCIASTKKPELFKRLILVTASPRYINT 132
Query: 129 ESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPEAVQEFSRTLFNMRPDITLF 188
+ Y GGFE ++IE++ S +E+ Y+ W+ YAP+ V + +V +F L +M ++ +
Sbjct: 133 DDYEGGFESSDIEQLVSTIESQYENWISIYAPIAVDPNDVASVDKFHNCLKSMGAEVAIS 192
Query: 189 VSRTVFNSDLRGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEWLNTEGHLP 248
+++TVF SD R +L V++PC I+Q++ D++VP Y++E + G +T+E ++ GH P
Sbjct: 193 LAKTVFYSDYRDMLEKVQIPCTIIQSSNDMAVPLNIGHYLEEKIKGVSTLEIIDMIGHFP 252
Query: 249 HLSA 252
HL+A
Sbjct: 253 HLTA 256
>Glyma03g36500.1
Length = 262
Score = 229 bits (583), Expect = 3e-60, Method: Compositional matrix adjust.
Identities = 107/250 (42%), Positives = 163/250 (65%), Gaps = 2/250 (0%)
Query: 5 ILDVHNVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTINPD-YF 63
I+D N + G+G + +V HG GTD++VW+ ++P+ +KV++FDL FA + P +
Sbjct: 1 IVDALNANFYGNGTQTLVLAHGYGTDQTVWRYLIPFLACYFKVLVFDLPFAPNVRPSSLY 60
Query: 64 DFRRYSTLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIGASP 123
D ++YST + Y DL+ +LD L +++ +VGHSMSA IG LA+ ++PQLF L+L+ SP
Sbjct: 61 DPKKYSTFNGYAQDLVCLLDELNLSKTIYVGHSMSAMIGCLAATKKPQLFEHLVLLAGSP 120
Query: 124 RFLNDESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPEAVQEFSRTLFNMRP 183
+LN E Y GGF +E++++F +++ N+ W +AP + A+ P AV EF +L M+P
Sbjct: 121 MYLNKEGYEGGFTRSELDKIFESIKQNFSGWAHSFAPYAISANDPAAVAEFECSLLRMKP 180
Query: 184 DITLFVSRTVFNSDLRGILGLVKVPC-CIMQTAKDLSVPAAAARYMQEHLGGKTTVEWLN 242
++ L V++TVF SDLR +L V+VP I+QT KD VP + YMQ+ LG + V L
Sbjct: 181 EVALSVAKTVFLSDLRCVLPRVRVPASTIIQTRKDPIVPVNVSFYMQKELGSLSKVIILE 240
Query: 243 TEGHLPHLSA 252
TEGH P L+A
Sbjct: 241 TEGHFPQLTA 250
>Glyma08g04450.1
Length = 271
Score = 226 bits (577), Expect = 1e-59, Method: Compositional matrix adjust.
Identities = 105/245 (42%), Positives = 159/245 (64%), Gaps = 2/245 (0%)
Query: 10 NVSVEGSGNEYIVFGHGLGTDKSVWKRILPY-FEPNYKVILFDLVFAGTI-NPDYFDFRR 67
N +EG G E IVF HG GTD+S+W +I P NY+++ FD FAGT+ + +D +
Sbjct: 13 NARIEGCGTETIVFAHGYGTDQSIWDKIHPLVLALNYRLVTFDWAFAGTVKDQSLYDPHK 72
Query: 68 YSTLDPYVDDLLAILDALRVTRCAFVGHSMSATIGILASIRRPQLFSKLILIGASPRFLN 127
YS+++ + DDL+ +L+ + + FVGHSMS IG +AS++RPQLF LIL+GASPRFLN
Sbjct: 73 YSSVEAFADDLITLLNEMDLKAVTFVGHSMSGIIGCIASVKRPQLFKTLILVGASPRFLN 132
Query: 128 DESYRGGFELNEIEEVFSAMEANYQAWVRGYAPLMVGADVPEAVQEFSRTLFNMRPDITL 187
+ Y GGF ++IE++ S + NY+ + G+A L+ + V ++ + L M+ ++ L
Sbjct: 133 SDDYEGGFNSSDIEQLLSNIGTNYENFASGFASLIADPTNEDTVDKYEKCLKRMQGEVAL 192
Query: 188 FVSRTVFNSDLRGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEWLNTEGHL 247
+++T+F SD R IL V+ PC I+QT KD +VP A YM+ + GK T+E ++T GH
Sbjct: 193 SLAKTIFYSDWREILDKVETPCTIIQTKKDAAVPHNVALYMKNKIKGKVTLEIIDTLGHF 252
Query: 248 PHLSA 252
P L+A
Sbjct: 253 PQLTA 257
>Glyma05g35270.1
Length = 245
Score = 179 bits (455), Expect = 2e-45, Method: Compositional matrix adjust.
Identities = 93/234 (39%), Positives = 140/234 (59%), Gaps = 22/234 (9%)
Query: 33 VWKRILPYFEP-NYKVILFDLVFAGTI-NPDYFDFRRYSTLDPYVDDLLAILDALRVTRC 90
+W +ILP P NY++I FD FAGT+ + + +D +YS+++ + DDL+ +L+ + +
Sbjct: 6 IWDKILPLLLPQNYRLITFDWPFAGTVKDQNLYDPVKYSSVEGFADDLITLLNKMDLKAV 65
Query: 91 AFVGHSMSATIGILASIRRPQLFSKLILIGASPR------------FLNDESYRGGFELN 138
FVGHSMS IG +AS++ PQLF LIL+GASP FLN + Y GGF +
Sbjct: 66 TFVGHSMSGMIGCIASVKSPQLFKTLILVGASPNQVKLLHLYSCHVFLNSDDYEGGFNSS 125
Query: 139 EIEEVFSAMEANYQAWVRGYAPLMVGADVPEAVQEFSRTLFNMRPDITLFVSRTVFNSDL 198
+IE++ S E NY+ + G+A L+ + L MR ++ L +++T+F SD
Sbjct: 126 DIEQLLSNRETNYENFASGFASLIADPT--------NECLKRMRGEVALSLAKTIFYSDW 177
Query: 199 RGILGLVKVPCCIMQTAKDLSVPAAAARYMQEHLGGKTTVEWLNTEGHLPHLSA 252
R IL V+ PC I+QT KD +VP A YM+ + GK T+E ++T GH P L+A
Sbjct: 178 REILDKVETPCTIIQTKKDAAVPHNVALYMENKIKGKVTLEIIDTLGHFPQLTA 231
>Glyma19g39160.1
Length = 157
Score = 131 bits (330), Expect = 7e-31, Method: Compositional matrix adjust.
Identities = 63/154 (40%), Positives = 98/154 (63%), Gaps = 2/154 (1%)
Query: 101 IGILASIRRPQLFSKLILIGASPRFLNDESYRGGFELNEIEEVFSAMEANYQAWVRGYAP 160
IG +A+ ++P+LF L+ +G SPR+LN+E Y GGF +E++ +F +++ N+ W +AP
Sbjct: 2 IGCIAATKKPELFEHLVQLGGSPRYLNEEGYEGGFTRSELDTIFESIKQNFSGWAHSFAP 61
Query: 161 LMVGADVPEAVQEFSRTLFNM-RPDITLFVSRTVFNSDLRGILGLVKVP-CCIMQTAKDL 218
+ + P AV EF R+L M +P++ L V++TVF SDLR +L LV+VP I+Q +D
Sbjct: 62 NAISTNNPAAVAEFERSLLRMIKPEVALSVAKTVFLSDLRWVLPLVRVPNSTIIQPREDP 121
Query: 219 SVPAAAARYMQEHLGGKTTVEWLNTEGHLPHLSA 252
VP A M+ LG ++ V L T+GH L+A
Sbjct: 122 IVPVNVAFCMKSKLGSRSKVTILETQGHFRQLTA 155
>Glyma05g22010.1
Length = 222
Score = 77.4 bits (189), Expect = 1e-14, Method: Compositional matrix adjust.
Identities = 34/82 (41%), Positives = 50/82 (60%)
Query: 7 DVHNVSVEGSGNEYIVFGHGLGTDKSVWKRILPYFEPNYKVILFDLVFAGTINPDYFDFR 66
+ HN+++ G GNE ++ HG GTD+SVWK ++P+ +Y+V+L+D + AGT NPDYFD
Sbjct: 6 EAHNMTIVGKGNEIVILTHGFGTDQSVWKHLVPHLVDDYRVVLYDNIGAGTTNPDYFDNI 65
Query: 67 RYSTLDPYVDDLLAILDALRVT 88
T P L + VT
Sbjct: 66 GAGTYSPSCKSFRCNLASSLVT 87
Score = 63.2 bits (152), Expect = 3e-10, Method: Compositional matrix adjust.
Identities = 29/47 (61%), Positives = 36/47 (76%)
Query: 170 AVQEFSRTLFNMRPDITLFVSRTVFNSDLRGILGLVKVPCCIMQTAK 216
AVQEFSRTLFNMRPDI L +++T+F D+R IL + VPC I+Q K
Sbjct: 176 AVQEFSRTLFNMRPDIALSLAQTIFQLDMRPILSHLTVPCHIIQNTK 222