Miyakogusa Predicted Gene
- Lj4g3v3002480.1
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= Lj4g3v3002480.1 Non Chatacterized Hit- tr|C5Z4G2|C5Z4G2_SORBI
Putative uncharacterized protein Sb10g004060
OS=Sorghu,30.68,9e-19,seg,NULL; DUF1191,Protein of unknown function
DUF1191,CUFF.51985.1
(291 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma05g37180.1 445 e-125
Glyma08g02400.1 420 e-118
Glyma03g00330.1 157 2e-38
Glyma07g06650.1 151 8e-37
Glyma16g34770.1 145 4e-35
Glyma18g45000.1 145 7e-35
Glyma16g03220.1 142 6e-34
Glyma11g31550.1 139 4e-33
Glyma18g05670.1 134 2e-31
Glyma02g40460.1 131 1e-30
Glyma09g40800.1 129 3e-30
Glyma04g14920.1 100 3e-21
Glyma06g47140.1 99 7e-21
Glyma06g47170.1 84 1e-16
>Glyma05g37180.1
Length = 297
Score = 445 bits (1144), Expect = e-125, Method: Compositional matrix adjust.
Identities = 222/295 (75%), Positives = 245/295 (83%), Gaps = 5/295 (1%)
Query: 1 MPSNMSWDFIWLLVFTLCCC-SFVHSLNNTAS--DSLNSLVQDFAFKSLVKRRPQTGALY 57
M S + WDFIW+L+ TLCCC S VHSL+NTA+ +SLNSLVQDFAF+SLVK RPQTGALY
Sbjct: 1 MGSKIDWDFIWVLLLTLCCCGSLVHSLDNTAAACESLNSLVQDFAFRSLVKHRPQTGALY 60
Query: 58 DALLPQNLSGMDVSVVCLRSRRLWNKGANFSYFRIPPRTVSIPHVKRLAIVYQNLGNWSS 117
DALLP+NLSGMDVSVV LRSRRLWNKGANFSYF+IPPRT+SIPHV+RLAIVYQNLGNWSS
Sbjct: 61 DALLPRNLSGMDVSVVRLRSRRLWNKGANFSYFQIPPRTMSIPHVRRLAIVYQNLGNWSS 120
Query: 118 HYYSLPGYTLISSVVGFMVFDASNVTDTRVRNLTLNTMGHPISIQFPNVSFI--GGMNSR 175
HY++LPGY+LISSVVGFMVFDASNVTDT RN+TLNTMG PIS+QFPNV+F+ G +N+R
Sbjct: 121 HYFNLPGYSLISSVVGFMVFDASNVTDTSERNITLNTMGQPISVQFPNVTFMGRGSINTR 180
Query: 176 TRCVAFIANGTIQLSEMSSPGVCCSRDQGHFSVVLPLPKRRRQWXXXXXXXXXXXXXXXX 235
RCVAF ANGT QL+EMSSPGVC SRDQGHFSVVLPL K+R W
Sbjct: 181 VRCVAFNANGTFQLTEMSSPGVCNSRDQGHFSVVLPLEKKRGTWYLWVIGFVVGFFGLII 240
Query: 236 XXXXXXSSMRLVKTKRIQAMEKQANEDLVLESRWVGNSKMPSATVTRTQPALESS 290
SSMRL+KTKRIQAMEKQA ED VLESRWVGNSKMPSA VTRTQP LES
Sbjct: 241 AGYAVFSSMRLLKTKRIQAMEKQAGEDQVLESRWVGNSKMPSAAVTRTQPVLESG 295
>Glyma08g02400.1
Length = 296
Score = 420 bits (1080), Expect = e-118, Method: Compositional matrix adjust.
Identities = 221/293 (75%), Positives = 241/293 (82%), Gaps = 8/293 (2%)
Query: 5 MSWDFIWLLVFTLCCC--SFVHSLNNTA--SDSLNSLVQDFAFKSLVKRRPQTGALYDAL 60
M+WDFIW+L+ TLCCC SF HSL+NTA S+SLNSLVQDFAF+SLVK RPQTGALYDAL
Sbjct: 1 MNWDFIWVLLLTLCCCCCSFGHSLDNTAAASESLNSLVQDFAFRSLVKHRPQTGALYDAL 60
Query: 61 LPQNLSGMDVSVVCLRSRRLWNKGANFSYFRIPPRTVSIPHVKRLAIVYQNLGNWSSHYY 120
LP+NLSGMDVSVV LRSRRLWNKGANFSYFRIPPRT+SIPHV+RLAIVYQNLGNWSSHYY
Sbjct: 61 LPRNLSGMDVSVVRLRSRRLWNKGANFSYFRIPPRTMSIPHVRRLAIVYQNLGNWSSHYY 120
Query: 121 SLPGYTLISSVVGFMVFDASNVTDTRVRNLTLNTMGHPISIQFPNVSFIG----GMNSRT 176
+LPGY+ ISSVVGFMVFDASNVTDT RNLTLNTMG PISIQFPN++F+ +N+R
Sbjct: 121 NLPGYSFISSVVGFMVFDASNVTDTSERNLTLNTMGQPISIQFPNITFMARGSNSINTRV 180
Query: 177 RCVAFIANGTIQLSEMSSPGVCCSRDQGHFSVVLPLPKRRRQWXXXXXXXXXXXXXXXXX 236
RCVAF NGT QL+EMSSPGVC SRDQGHFSVVLPL KRR W
Sbjct: 181 RCVAFNDNGTFQLTEMSSPGVCNSRDQGHFSVVLPLEKRRGTWYLWVIGFVVGFFGLIIV 240
Query: 237 XXXXXSSMRLVKTKRIQAMEKQANEDLVLESRWVGNSKMPSATVTRTQPALES 289
SS RL+KTKRIQ MEKQA+ED VLESRWVGNSKMPSATVTRTQP LE+
Sbjct: 241 GYVVFSSRRLLKTKRIQVMEKQASEDQVLESRWVGNSKMPSATVTRTQPVLEN 293
>Glyma03g00330.1
Length = 307
Score = 157 bits (396), Expect = 2e-38, Method: Compositional matrix adjust.
Identities = 92/276 (33%), Positives = 149/276 (53%), Gaps = 23/276 (8%)
Query: 33 SLNSLVQDFAFKSLVKRRPQTGALYDAL---LPQNLSGMDVSVVCLRSRRLWNKG-ANFS 88
SL++++Q++AFK+LVK P+TG +Y+A LP NL+G+ ++ + LRS + +G +++
Sbjct: 30 SLDAILQEYAFKALVK--PKTGTIYNATTTQLPSNLTGVKIAALRLRSGSMRRRGFPSYN 87
Query: 89 YFRIPPRTVSIPHVKRLAIVYQNLGNWSSHYYS-LPGYTLISSVVGFMVFDASNVTDTRV 147
F IP ++ P+VKRL +VYQNLGNWS+ YY LP YT ++ V+G + ++ASN++ T +
Sbjct: 88 EFEIPKGVIAKPYVKRLVLVYQNLGNWSNSYYPLLPNYTYLAPVLGILAYNASNLSATNL 147
Query: 148 RNLTLNTMGHPISIQFPNVSFIGGMNSRTRCVAFIANGTIQLSEMSSPGVCCSRDQGHFS 207
L +N G PI ++F +V + + + +CV F G+ + ++ C S QGHFS
Sbjct: 148 PTLDVNASGDPIKVKFHHVK-LPPLGAVAKCVCFDLQGSSNFTNVTGGNTCSSSSQGHFS 206
Query: 208 VVLPL---------------PKRRRQWXXXXXXXXXXXXXXXXXXXXXXSSMRLVKTKRI 252
+V+ + ++ + K+I
Sbjct: 207 IVVESSALPPPPPAVAPNENKTSSNKAGVIVGSVLAGLVFLVLLSFLVLWLLKYKQNKKI 266
Query: 253 QAMEKQANEDLVLESRWVGNSKMPSATVTRTQPALE 288
Q ME+ A+ L VG+ K P+ATVTRTQP LE
Sbjct: 267 QQMERAADAGEALHMASVGDIKAPAATVTRTQPTLE 302
>Glyma07g06650.1
Length = 268
Score = 151 bits (381), Expect = 8e-37, Method: Compositional matrix adjust.
Identities = 90/294 (30%), Positives = 149/294 (50%), Gaps = 43/294 (14%)
Query: 12 LLVFTLCCCSFVHSLNNTASDSLNSLVQDFAFKSLVKR--RPQTGALYDALLPQNLSGMD 69
+VF +C H + + D + + DF K K RP+TG +Y+ LP N +GM+
Sbjct: 2 FIVFFICVIRNSHCGSQSYYD--HESLDDFLCKQANKETERPRTGVVYNVSLPSNFTGME 59
Query: 70 VSVVCLRSRRLWNKGANFSYFRIPPRTVSIPHVKRLAIVYQNLGNWSSHYYSLPGYTLIS 129
VSVV L LW++G N+S+F +PPR + P+ KR+ I+++NLGNWSSHY+++P YT+++
Sbjct: 60 VSVVRLHRFSLWSRGMNYSFFSLPPRILPQPNEKRITILFENLGNWSSHYFNVPNYTIVA 119
Query: 130 SVVGFMVFDASN--VTDTRVRNLTLNTMGHPISIQFPNVSFIGGMNSRTRCVAFIANGTI 187
V G M +++S + D ++ T G PI I+ A +
Sbjct: 120 PVFGVMAYNSSEKVLVDEKI---NFTTHGDPIRIR--------------------AGELV 156
Query: 188 QLSEMSSPGVCCSRDQGHFSVVLP-LP-----------KRRRQWXXXXXXXXXXXXXXXX 235
+ M+ P VC QGH+++V+P P KR +W
Sbjct: 157 KFKNMTEPYVCEVYSQGHYTLVVPSFPSPKEPNSRSHSKRFTKWWVLGFVIGFVGLVILV 216
Query: 236 XXXXXXSSMRLVKTKRIQAMEKQANEDLVLESRWVGNSKMPSATVTRTQPALES 289
+ ++ K +RI+ ME+ + + ++ W+G +K+PSA++ RTQP LE+
Sbjct: 217 LILL--ALVKEAKKRRIRKMERNSEGGELFDTFWIGETKLPSASMLRTQPTLEN 268
>Glyma16g34770.1
Length = 376
Score = 145 bits (367), Expect = 4e-35, Method: Compositional matrix adjust.
Identities = 78/196 (39%), Positives = 126/196 (64%), Gaps = 8/196 (4%)
Query: 19 CCSFVH-SLNNTASDSLNSLVQDFAFKSLVKRRPQTGALYDAL---LPQNLSGMDVSVVC 74
C S H S ++ + SL++++Q++AFK+LVK P+TG +Y+A LP NL+G+ +S +
Sbjct: 75 CFSAPHASAQSSQARSLDAILQEYAFKALVK--PRTGTIYNATATQLPSNLTGVKISALR 132
Query: 75 LRSRRLWNKG-ANFSYFRIPPRTVSIPHVKRLAIVYQNLGNWSSHYYSLPGYTLISSVVG 133
LRS + KG +++ F IP ++ P+VKRL +VYQNLGNWS+ YY LP YT ++ V+G
Sbjct: 133 LRSGSMRRKGFPSYNEFEIPIGVIAKPYVKRLVLVYQNLGNWSNSYYPLPNYTYLAPVLG 192
Query: 134 FMVFDASNVTDTRVRNLTLNTMGHPISIQFPNVSFIGGMNSRTRCVAFIANGTIQLSEMS 193
+V++ASN++ T + L +N G PI ++F +V + + + +CV F G+ S ++
Sbjct: 193 LLVYNASNLSATNLPTLNVNASGDPIKVKFLHVK-VPPLGAVPKCVWFDLQGSSNFSNVT 251
Query: 194 SPGVCCSRDQGHFSVV 209
C + QGHFS+V
Sbjct: 252 GGNTCSTSSQGHFSIV 267
>Glyma18g45000.1
Length = 324
Score = 145 bits (365), Expect = 7e-35, Method: Compositional matrix adjust.
Identities = 94/282 (33%), Positives = 150/282 (53%), Gaps = 28/282 (9%)
Query: 31 SDSLNSLVQDFAFKSLVKRRPQTGALYDAL-LPQNLSGMDVSVVCLRSRRLWNKG-ANFS 88
+ +L++L+Q +A+++LV P+TG +Y+A LP NL+ ++V+ + LRS L KG ++
Sbjct: 42 AKALDALLQQYAYRALVN--PKTGIIYNATHLPSNLTEIEVAALRLRSGSLRRKGFQAYN 99
Query: 89 YFRIPPRTVSIPHVKRLAIVYQNLGNWSS-HYYSLPGYTLISSVVGFMVFDASNVTDTRV 147
F IP + P+V+RL +VYQNLGNWSS +YY LP YT ++ V+G + +D SN++ T +
Sbjct: 100 EFEIPKGLIGSPYVERLVLVYQNLGNWSSRYYYPLPNYTYLAPVLGLLAYDGSNLSVTSL 159
Query: 148 RNLTLNTMGHPISIQFPNVSFIGGMNSRTRCVAFIANGTIQLSEMSSPGVCCSRDQGHFS 207
L ++ PI ++F +V + +CV F G+ S ++ C + QGHFS
Sbjct: 160 SELDIDASEGPILVKFRDVK-QAPHGAVAKCVWFDLQGSSNFSNVTGGNTCSTTQQGHFS 218
Query: 208 VVL----PL----------PK-------RRRQWXXXXXXXXXXXXXXXXXXXXXXSSMRL 246
+V+ PL PK ++ W S +
Sbjct: 219 IVVKSTAPLAPSPTPAGAAPKGEGEKGNNKKVWIIVGSVVGGLALLVLLSLLVLWMS-KY 277
Query: 247 VKTKRIQAMEKQANEDLVLESRWVGNSKMPSATVTRTQPALE 288
+ KR+Q ME+ A L+ +G++K P+ATVTRTQP LE
Sbjct: 278 KQKKRMQQMERAAEVGEPLQMASIGDTKAPAATVTRTQPTLE 319
>Glyma16g03220.1
Length = 262
Score = 142 bits (357), Expect = 6e-34, Method: Compositional matrix adjust.
Identities = 87/270 (32%), Positives = 138/270 (51%), Gaps = 44/270 (16%)
Query: 32 DSLNSLVQDFAFKSLVKRRPQTGALYDALLPQNLSGMDVSVVCLRSRRLWNKGANFSYFR 91
+SL+ ++ A K R + G L + LP N +GM+VSVV LRS LW++G N+S F
Sbjct: 25 ESLDDFLRKQANKET--ERLRKGVLSNVYLPSNFTGMEVSVVRLRSFSLWSRGMNYSSFN 82
Query: 92 IPPRTVSIPHVKRLAIVYQNLGNWSSHYYSLPGYTLISSVVGFMVFDASNVTDTRVRNLT 151
+PPR V P+ KR+AI+++NLGNWSS+YY++P +T+++SV G M + +S +T +
Sbjct: 83 LPPRIVLQPNAKRIAILFENLGNWSSNYYNVPNHTMVASVFGVMAYSSS---ETAFVDEK 139
Query: 152 LNTMGHPISIQFPNVSFIGGMNSRTRCVAFIANGTIQLSEMSSPGVCCSRDQGHFSVVLP 211
+N H A G ++ M+ P VC QGH+++V+P
Sbjct: 140 INFTTH-------------------------AGGLVKFKNMTKPYVCEVYSQGHYTLVVP 174
Query: 212 -LP-----------KRRRQWXXXXXXXXXXXXXXXXXXXXXXSSMRLVKTKRIQAMEKQA 259
P KR +W + ++ K +RI+ MEK +
Sbjct: 175 SFPSPKEPNTRSHSKRFTKWWVLGFVIGFAGLVILVLILL--ALVKEAKKRRIRKMEKNS 232
Query: 260 NEDLVLESRWVGNSKMPSATVTRTQPALES 289
+ ++ W+G SK+PSA++ RTQP LE+
Sbjct: 233 EGGELFDTFWIGESKLPSASMLRTQPTLEN 262
>Glyma11g31550.1
Length = 317
Score = 139 bits (350), Expect = 4e-33, Method: Compositional matrix adjust.
Identities = 88/285 (30%), Positives = 141/285 (49%), Gaps = 25/285 (8%)
Query: 27 NNTASDSLNSLVQDFAFKSLVKRRPQTGALYDALLPQNLSGMDVSVVCLRSRRLWNKGAN 86
+N +S +L++++QD AFK+ + RP+TG YD +P++L+G+ VS + LRS L +G
Sbjct: 32 DNISSRTLDAILQDCAFKAFL--RPKTGVPYDGKVPRSLNGIRVSAMRLRSGSLRTRGVE 89
Query: 87 -FSYFRIPPRTVSIPHVKRLAIVYQNLGNWSSHYYSLPGYTLISSVVGFMVFDASNVTDT 145
+ F+IP P+V+RL VY NLGNWS +Y LPGY ++ V+G M + +N++D+
Sbjct: 90 SYKEFQIPIGVFEQPYVERLVFVYHNLGNWSEKFYPLPGYIYLAPVLGLMSYSGANLSDS 149
Query: 146 RVRNLTLNTMGHPISIQFPNVSFIGGMNSRTRCVAFIANGTIQLSEMSSPGVCCSRDQGH 205
+ L + PI I+FP+V + S CV F +G++Q + VC + QGH
Sbjct: 150 ELPELDIRASDKPILIKFPHVES-APLGSVPTCVYFDLHGSVQFDILLHGNVCSTFQQGH 208
Query: 206 FSVVLP---------------LPKRRRQWXXXXXXXXXXXXXXXXXXXXXXSSMRLVKTK 250
FS+V+ R S+ + K +
Sbjct: 209 FSIVVESNAPSPAPAAVAVAADVGRSGSGRNNSMVWIIVASLVGGCFLLIMLSLLVAKVR 268
Query: 251 R------IQAMEKQANEDLVLESRWVGNSKMPSATVTRTQPALES 289
R IQ +E A + L+ +G +K P A TRT+P +E+
Sbjct: 269 RTRQGMKIQQLEWAAESNETLQIASIGGTKAPLAIGTRTRPTIEN 313
>Glyma18g05670.1
Length = 320
Score = 134 bits (336), Expect = 2e-31, Method: Compositional matrix adjust.
Identities = 69/182 (37%), Positives = 111/182 (60%), Gaps = 4/182 (2%)
Query: 30 ASDSLNSLVQDFAFKSLVKRRPQTGALYDALLPQNLSGMDVSVVCLRSRRLWNKGAN-FS 88
+S +L++++QD AFK+ + RP+TG Y +P++L+G+ VS + LRS L +G +
Sbjct: 34 SSRTLDAILQDCAFKAFL--RPKTGVPYGGQVPRSLNGIRVSAMRLRSGSLRTRGVERYK 91
Query: 89 YFRIPPRTVSIPHVKRLAIVYQNLGNWSSHYYSLPGYTLISSVVGFMVFDASNVTDTRVR 148
F+IP V P+V+RL +VY NLGNWS +Y LPGYT ++ V+G M + +N++ + +
Sbjct: 92 EFQIPIGVVEQPYVERLVLVYHNLGNWSEKFYPLPGYTYLAPVLGLMPYSGANLSASELP 151
Query: 149 NLTLNTMGHPISIQFPNVSFIGGMNSRTRCVAFIANGTIQLSEMSSPGVCCSRDQGHFSV 208
L + PI I FP+V + S +CV F +G++Q + VC + QGHFS+
Sbjct: 152 ELDIRASDKPILINFPHVKS-APLGSVPKCVYFDLHGSVQFDILLHGNVCSTVQQGHFSI 210
Query: 209 VL 210
V+
Sbjct: 211 VV 212
>Glyma02g40460.1
Length = 307
Score = 131 bits (329), Expect = 1e-30, Method: Compositional matrix adjust.
Identities = 67/178 (37%), Positives = 106/178 (59%), Gaps = 4/178 (2%)
Query: 34 LNSLVQDFAFKSLVKRRPQTGALYDALLPQNLSGMDVSVVCLRSRRLWNKGA-NFSYFRI 92
L+S +QD AF++L P TG YDA +P NLSG+ VS + LRS L +G ++ F I
Sbjct: 38 LDSHLQDSAFRALFS--PITGVPYDAQVPTNLSGIKVSAMRLRSGSLRTRGVLSYKEFEI 95
Query: 93 PPRTVSIPHVKRLAIVYQNLGNWSSHYYSLPGYTLISSVVGFMVFDASNVTDTRVRNLTL 152
P V P+V+RL +VYQNLGNWS +Y LPG++ ++ V+G + + N++ + + L +
Sbjct: 96 PIGVVEKPYVERLVLVYQNLGNWSDQFYPLPGFSYLAPVLGLLAYSGINLSASELPELDI 155
Query: 153 NTMGHPISIQFPNVSFIGGMNSRTRCVAFIANGTIQLSEMSSPGVCCSRDQGHFSVVL 210
P+ + FP+V + + +CV F +G++Q + VC + QGHFS+V+
Sbjct: 156 RASEKPVLVNFPHVR-PAPLGALAKCVYFDLHGSVQFDTLLPGNVCSTMQQGHFSIVV 212
>Glyma09g40800.1
Length = 323
Score = 129 bits (324), Expect = 3e-30, Method: Compositional matrix adjust.
Identities = 89/284 (31%), Positives = 140/284 (49%), Gaps = 30/284 (10%)
Query: 31 SDSLNSLVQDFAFKSLVKRRPQTGALYDAL-LPQNLSGMDVSVVCLRSRRLWNKG-ANFS 88
+ +L++L+Q FA+K LV P+TG +Y+A LP NL+G++V+ + LRS L KG ++
Sbjct: 39 AKALDALLQQFAYKDLV--NPKTGIIYNATQLPSNLTGIEVAALRLRSGSLRRKGFQAYN 96
Query: 89 YFRIPPRTVSIPHVKRLAIVYQNLGNWSS-HYYSLPGYTLISSVVGFMVFDASNVTDTRV 147
F IP + P+V+RL +VYQNL N SS +YY LP YT ++ V+G + ++ SN++ T +
Sbjct: 97 EFEIPKGLIVSPYVERLVLVYQNLDNRSSSYYYPLPNYTYLAPVLGLLAYEGSNLSATNL 156
Query: 148 RNLTLNTMGHPISIQFPNVSFIGGMNSRTRCVAFIANGTIQLSEMSSPGVCCSRDQGHFS 207
L ++ PI ++F +V + +C+ F G+ S ++ C + QGHFS
Sbjct: 157 SELDIDASESPILVKFRDVK-PAPHGAVAKCIWFDLQGSSNFSNVTGGNTCSTTQQGHFS 215
Query: 208 VVLPL-----------------------PKRRRQWXXXXXXXXXXXXXXXXXXXXXXSSM 244
+V+ + W S
Sbjct: 216 IVVKSIAPLAPSPAPAGAAPKGEGEKGNNNNEKVWIIVGSVVGGLVLLVLLSLLVLWMSK 275
Query: 245 RLVKTKRIQAMEKQANEDLVLESRWVGNSKMPSATVTRTQPALE 288
K K Q ME+ A L+ +G++K P+ATVTRTQP LE
Sbjct: 276 YKQKMKMQQ-MERAAEVGEPLQMSSIGDTKAPAATVTRTQPTLE 318
>Glyma04g14920.1
Length = 291
Score = 99.8 bits (247), Expect = 3e-21, Method: Compositional matrix adjust.
Identities = 77/270 (28%), Positives = 128/270 (47%), Gaps = 21/270 (7%)
Query: 34 LNSLVQDFAFKSLVKRRPQTGALYDALLPQNLSGMDVSVVCLRSRRLWNKGANFSYFRIP 93
L+ +++D FK+L K +T LP NLSG+ + V R L GA+ F +
Sbjct: 25 LDLIIRDHTFKALDKNF-RTAIPQSVSLPANLSGIGIDAVRFRCGSLRRYGAHLKEFHLG 83
Query: 94 PRTVSIPHVKRLAIVYQNLG-NWSSHYYS---LPGYTLISSVVGFMVFDASNVTDTRVRN 149
P ++R+ ++ QN+G NWSS YY+ L GY L+S +VG + ++A D + N
Sbjct: 84 TGVTVHPCIERVMLIRQNMGYNWSSIYYANYDLSGYQLVSPIVGLLAYNADE--DAKSSN 141
Query: 150 ---LTLNTMGHPISIQFPNVSFIGGMNSRTRCVAFIANGTIQLSEM---SSPGVCCSRDQ 203
L + P++I F N + + + C +F +G + L++ S+P VC ++
Sbjct: 142 PFQLGIVAGETPMTIDFTNATKMNQDGVKPLCASFEGDGRMTLAKAPNPSTPLVCVAKRH 201
Query: 204 GHFSVVLPL--PKRRR-----QWXXXXXXXXXXXXXXXXXXXXXXSSM-RLVKTKRIQAM 255
GHF +V+ P + R +W + + R+ K RI M
Sbjct: 202 GHFGLVVEYSPPDQFRNKPLSRWKVAVGSTIGAALGAFLLGLLLVAMLVRVKKRSRIVEM 261
Query: 256 EKQANEDLVLESRWVGNSKMPSATVTRTQP 285
E++A E+ L+ VG+ + P+A TRT P
Sbjct: 262 ERRAYEEEALQVSMVGHVRAPTAPGTRTTP 291
>Glyma06g47140.1
Length = 305
Score = 98.6 bits (244), Expect = 7e-21, Method: Compositional matrix adjust.
Identities = 78/274 (28%), Positives = 131/274 (47%), Gaps = 22/274 (8%)
Query: 34 LNSLVQDFAFKSLVKRRPQTGALYDALLPQNLSGMDVSVVCLRSRRLWNKGANFSYFRIP 93
L+ +++D FK+L K +T LP NLSG+ V V R L GA+ F +
Sbjct: 25 LDLIIRDHTFKALDKNF-KTAIPQSVDLPSNLSGIGVDAVRFRCGSLRRYGAHLKEFHLG 83
Query: 94 PRTVSIPHVKRLAIVYQNLG-NWSSHYYS---LPGYTLISSVVGFMVFDA-SNVTDTRVR 148
P ++R+ ++ QN+G NWSS YY+ L GY L+S +VG + ++A + +
Sbjct: 84 TGVTVHPCIERVMLIRQNMGYNWSSIYYANYDLSGYQLVSPIVGLLAYNADEDANSSNPF 143
Query: 149 NLTLNTMGHPISIQFPNVSFI---GGMNSRTRCVAFIANGTIQLSEM---SSPGVCCSRD 202
L + P++I F N + + GG+ + C +F +G + L++ S P VC ++
Sbjct: 144 QLGIVAGEKPMTIDFTNATRMNQEGGI--KPLCASFEGDGRMTLAKAPNPSRPLVCVAKR 201
Query: 203 QGHFSVVLPL--PKRRR-----QWXXXXXXXXXXXXXXXXXXXXXXSSM-RLVKTKRIQA 254
GHF +V+ P + R +W + + R+ K R+
Sbjct: 202 HGHFGLVVEYSPPDQFRNKPLSRWKVAVGSTIGAALGAFLLGLLLVAMLVRVKKRSRMVE 261
Query: 255 MEKQANEDLVLESRWVGNSKMPSATVTRTQPALE 288
ME++A E+ L+ VG+ + P+A TRT P +E
Sbjct: 262 MERRAYEEEALQVSMVGHVRAPTALGTRTTPIIE 295
>Glyma06g47170.1
Length = 284
Score = 84.3 bits (207), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 76/299 (25%), Positives = 132/299 (44%), Gaps = 48/299 (16%)
Query: 13 LVFTLCCCSFVHSLNNTASDSLNS------LVQDFAFKSLVKRRPQTGALYDALLPQNLS 66
++F+ +F L + A D + S +++D FK+L K +T LP NLS
Sbjct: 1 MIFSWVSFTF---LGSDAQDGVKSAHVLDLIIRDHTFKALNKNF-KTAIPQSVDLPSNLS 56
Query: 67 GMDVSVVCLRSRRLWNKGANFSYFRIPPRTVSIPHVKRLAIVYQNLG-NWSSHYYS---L 122
G+ V V R RL G ++ QN+G NWSS YY+ L
Sbjct: 57 GIGVDAVTFRCGRLRRYGM---------------------LIRQNMGYNWSSIYYANYDL 95
Query: 123 PGYTLISSVVGFMVFDA-SNVTDTRVRNLTLNTMGHPISIQFPNVSFIGGMNS-RTRCVA 180
GY L+S +VG + ++A + + L + P++I F N + + + + C +
Sbjct: 96 SGYQLVSPIVGLLAYNADEDANSSNPFQLGIVAGEKPMTIDFTNATKMNQEDGIKPLCAS 155
Query: 181 FIANGTIQLSEMSSPG---VCCSRDQGHFSVVLPL--PKRRR-----QWXXXXXXXXXXX 230
F +G ++L++ +P VC ++ GHF +++ P + R +W
Sbjct: 156 FEGDGRMKLAKAPNPSTALVCVAKRHGHFGMIVEYSPPDQFRNKPLSRWKVAVGSTIGAA 215
Query: 231 XXXXXXXXXXXSSM-RLVKTKRIQAMEKQANEDLVLESRWVGNSKMPSATVTRTQPALE 288
+ + R+ K R+ ME++A E+ L+ VG+ + P+A TRT P +E
Sbjct: 216 LGAFLLGLLLVAMLVRVKKRSRMVEMERRAYEEEALQVSMVGHVRAPTALGTRTTPIIE 274