Miyakogusa Predicted Gene
- Lj1g3v3027220.1
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= Lj1g3v3027220.1 Non Chatacterized Hit- tr|I3T1U0|I3T1U0_MEDTR
Uncharacterized protein OS=Medicago truncatula PE=2
SV,81.38,0,Abhydrolase_6,NULL; no description,NULL; seg,NULL;
alpha/beta-Hydrolases,NULL; HYDROLASE, ALPHA/BETA,CUFF.29934.1
(366 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma08g27210.1 525 e-149
Glyma18g50420.1 518 e-147
Glyma06g48300.1 313 2e-85
Glyma04g43610.1 313 2e-85
Glyma11g06320.1 180 2e-45
Glyma06g14640.1 174 2e-43
Glyma16g26050.1 169 5e-42
Glyma04g40170.1 162 5e-40
Glyma02g06990.1 160 2e-39
Glyma02g38410.1 159 6e-39
Glyma02g07060.1 155 8e-38
Glyma11g06330.1 152 6e-37
Glyma02g07040.1 147 2e-35
Glyma02g07010.1 145 5e-35
Glyma16g26060.1 144 2e-34
Glyma02g07070.1 140 2e-33
Glyma05g16870.1 139 6e-33
Glyma07g13350.1 138 9e-33
Glyma02g07000.1 134 2e-31
Glyma04g40170.3 121 1e-27
Glyma04g40170.2 116 5e-26
Glyma02g07030.1 103 3e-22
Glyma01g38950.1 102 9e-22
Glyma07g13370.1 90 5e-18
Glyma01g38820.1 61 2e-09
Glyma03g25400.1 59 9e-09
Glyma02g07020.1 57 4e-08
Glyma01g38810.1 55 2e-07
Glyma03g25410.1 52 1e-06
>Glyma08g27210.1
Length = 367
Score = 525 bits (1353), Expect = e-149, Method: Compositional matrix adjust.
Identities = 266/369 (72%), Positives = 286/369 (77%), Gaps = 5/369 (1%)
Query: 1 MGNLCALLNPKPAPPTXXXXXXXXXXXXXXLXXXXXXXXXXXXXXLFXXXXXXXXXN--- 57
MGN+CA L KPAP LF
Sbjct: 1 MGNICARLKLKPAPQPSTKKRSSSRRERRLDDDAAIREQAIAAAILFKQHQQQQQQQQQQ 60
Query: 58 FDRSTSLRYPNGVSKXXXXXXXXXXXXXXXXXXXLTDPLLQPHQLVNQGVKVDDLETNHF 117
FDRS SLRYPNGVSK LTDPLLQPHQL+NQGV VDDLETNH
Sbjct: 61 FDRSASLRYPNGVSKKSNANALPRSSSSRARS--LTDPLLQPHQLLNQGVNVDDLETNHV 118
Query: 118 VLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTDFLE 177
VLVHGGGFGAWCWYK+IALLEE GYKV AIDLTGSGV S+D N+ITS+SQYVKPLT+FLE
Sbjct: 119 VLVHGGGFGAWCWYKSIALLEESGYKVTAIDLTGSGVSSFDANSITSLSQYVKPLTNFLE 178
Query: 178 KLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQAASDD 237
KL E EKVILVGHDFGG CISYAME+FPLKISKAVFIAAAMLT+G STLDIISQQA S+D
Sbjct: 179 KLLEGEKVILVGHDFGGVCISYAMEMFPLKISKAVFIAAAMLTNGQSTLDIISQQAGSND 238
Query: 238 LMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVPFAPVIEKL 297
LM+QAQ F+YANGND PPTSFDLDKSL RDLLFNQSPTKD+ALA VSMR VPFAPV+EK+
Sbjct: 239 LMRQAQTFVYANGNDHPPTSFDLDKSLSRDLLFNQSPTKDIALACVSMRSVPFAPVLEKV 298
Query: 298 NLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSPFFSKPQALHK 357
+LSDLKYG+VRRFYIETLEDNAIP+SLQENMINASPPE+VFRLKGADHSPFFSKPQALHK
Sbjct: 299 SLSDLKYGSVRRFYIETLEDNAIPISLQENMINASPPEKVFRLKGADHSPFFSKPQALHK 358
Query: 358 LLVEISKIL 366
LLVE+SKIL
Sbjct: 359 LLVEVSKIL 367
>Glyma18g50420.1
Length = 361
Score = 518 bits (1333), Expect = e-147, Method: Compositional matrix adjust.
Identities = 270/366 (73%), Positives = 289/366 (78%), Gaps = 5/366 (1%)
Query: 1 MGNLCALLNPKPAPPTXXXXXXXXXXXXXXLXXXXXXXXXXXXXXLFXXXXXXXXXNFDR 60
MGN+CA L KP PP L LF FDR
Sbjct: 1 MGNICARLKSKP-PPQSSAKKRSSSRRERRLDDAAIREQAIAAAILFKQHQQQQQ--FDR 57
Query: 61 STSLRYPNGVSKXXXXXXXXXXXXXXXXXXXLTDPLLQPHQLVNQGVKVDDLETNHFVLV 120
STSLRYPNGVSK LTDPLL P QL QGV VDDLETNH VLV
Sbjct: 58 STSLRYPNGVSKKNNSHCLPRSSSSGARS--LTDPLLLPLQLHLQGVNVDDLETNHIVLV 115
Query: 121 HGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTDFLEKLP 180
HGGGFGAWCWYK+IALLEE GYKVAAIDLTGSGV S+DTN ITS+SQYVKPLTDFLEKLP
Sbjct: 116 HGGGFGAWCWYKSIALLEESGYKVAAIDLTGSGVSSFDTNIITSLSQYVKPLTDFLEKLP 175
Query: 181 ESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQAASDDLMQ 240
E +KVILVGHDFGGACISYAME+FPLKISKAVF+AAAMLTSG STLDIISQQA S+DLMQ
Sbjct: 176 EGKKVILVGHDFGGACISYAMEMFPLKISKAVFVAAAMLTSGQSTLDIISQQAGSNDLMQ 235
Query: 241 QAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVPFAPVIEKLNLS 300
QAQ F+YANGND PPTSFD+DKSLLRDLLFNQSPTKD+ALASVSMR VPFAPV+EK++LS
Sbjct: 236 QAQTFIYANGNDHPPTSFDMDKSLLRDLLFNQSPTKDIALASVSMRSVPFAPVLEKVSLS 295
Query: 301 DLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSPFFSKPQALHKLLV 360
DLKYG+VRRFYIETLEDNAIP+SLQENM+NA+PPE+VFRLKGADHSPFFSKPQALHKLLV
Sbjct: 296 DLKYGSVRRFYIETLEDNAIPISLQENMVNANPPEKVFRLKGADHSPFFSKPQALHKLLV 355
Query: 361 EISKIL 366
EISKIL
Sbjct: 356 EISKIL 361
>Glyma06g48300.1
Length = 345
Score = 313 bits (802), Expect = 2e-85, Method: Compositional matrix adjust.
Identities = 143/260 (55%), Positives = 192/260 (73%), Gaps = 1/260 (0%)
Query: 107 VKVDDLETNHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMS 166
V +++++ FVL+HG GFGAWCWYKT+ALLEE G A+DLTGSG+ DTN++T+++
Sbjct: 85 VNLENIKIKKFVLIHGEGFGAWCWYKTVALLEEAGLLPVALDLTGSGIDLTDTNSVTTLA 144
Query: 167 QYVKPLTDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTL 226
Y KPLT +L+ LPE E+VILVGH GGACISYA+E +P KISKA+F+ A M++ G
Sbjct: 145 DYSKPLTVYLQNLPEDEQVILVGHSIGGACISYALEHYPQKISKAIFLCATMVSDGQKPF 204
Query: 227 DIISQQAASDDLMQQAQKFL-YANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSM 285
D+ S++ S + Q KFL + NG + PPT F +K ++ L FNQSP KDVALA VSM
Sbjct: 205 DVFSEELGSAERFMQESKFLIHGNGKEKPPTGFMFEKEQMKGLYFNQSPAKDVALAMVSM 264
Query: 286 RPVPFAPVIEKLNLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADH 345
R P P++EK+ LS KYGT RRFYI+TL+D A+ +QE ++ +PPE VF++KG+DH
Sbjct: 265 RHSPLGPIMEKMCLSADKYGTGRRFYIQTLDDRALSPDVQEKLVRENPPEGVFKIKGSDH 324
Query: 346 SPFFSKPQALHKLLVEISKI 365
PFFSKPQ+LHK+LVEI++I
Sbjct: 325 CPFFSKPQSLHKILVEIAQI 344
>Glyma04g43610.1
Length = 342
Score = 313 bits (801), Expect = 2e-85, Method: Compositional matrix adjust.
Identities = 141/260 (54%), Positives = 194/260 (74%), Gaps = 1/260 (0%)
Query: 107 VKVDDLETNHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMS 166
V +++++ FVL+HG GFGAWCWYKT+ALLEE G A+DLTGSG+ DTNN+T+++
Sbjct: 82 VNLENIKIKKFVLIHGEGFGAWCWYKTVALLEEAGLLPVALDLTGSGIDLTDTNNVTTLA 141
Query: 167 QYVKPLTDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTL 226
Y KPLT +L+ LPE E+VILVGH GGACISYA+E +P KISKA F+ A M++ G
Sbjct: 142 DYSKPLTVYLQNLPEDEQVILVGHSIGGACISYALEHYPQKISKATFLCATMVSDGQKPF 201
Query: 227 DIISQQ-AASDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSM 285
D+ +++ ++ MQ+++ ++ NG + PPT F +K ++ L FNQSP KDVALA VSM
Sbjct: 202 DVFAEELGPAERFMQESKFLIHGNGKEKPPTGFMFEKEQMKGLYFNQSPAKDVALAMVSM 261
Query: 286 RPVPFAPVIEKLNLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADH 345
R P P++EKL+LS KYGT RRFYI+TL+D A+ +QE ++ +PPE VF++KG+DH
Sbjct: 262 RHSPLGPIMEKLSLSADKYGTGRRFYIQTLDDRALSPDVQEKLVRENPPEGVFKIKGSDH 321
Query: 346 SPFFSKPQALHKLLVEISKI 365
PFFSKPQ+LHK+LVEI++I
Sbjct: 322 CPFFSKPQSLHKILVEIAQI 341
>Glyma11g06320.1
Length = 265
Score = 180 bits (457), Expect = 2e-45, Method: Compositional matrix adjust.
Identities = 103/258 (39%), Positives = 142/258 (55%), Gaps = 8/258 (3%)
Query: 113 ETNHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPL 172
+ VLVHG GAWCWYK ALL+ G++V A+D+ SG+H +++ S+S+Y +PL
Sbjct: 5 KKRRLVLVHGACHGAWCWYKVAALLKSNGHQVTALDMAASGIHPKQVHDLNSISEYFEPL 64
Query: 173 TDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQ 232
FL LP E+VILVGH FGGACIS AME+FP KI+ AVF+AA M S + + Q+
Sbjct: 65 MYFLGSLPTEERVILVGHSFGGACISVAMEMFPTKIAAAVFVAAWM-PSPDLSFSTLLQE 123
Query: 233 AASDDLMQ---QAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVP 289
+M+ ++ N ++ S L L+ SP +D+ LA +RP
Sbjct: 124 FQYSRIMESDLHSKIMFDENTSNHRNGSRMFGPQFLASKLYQLSPPEDLTLAMSLLRPTR 183
Query: 290 FAPVIEKL----NLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADH 345
+E L L+ YGTV + YI +DN + Q +MI +PP V + GADH
Sbjct: 184 IYGDVELLRENTRLTKDNYGTVAKAYIVCEQDNVLRKDFQLSMIERNPPNEVKVIVGADH 243
Query: 346 SPFFSKPQALHKLLVEIS 363
P FSKPQ L L EI+
Sbjct: 244 MPMFSKPQELFSYLQEIA 261
>Glyma06g14640.1
Length = 272
Score = 174 bits (440), Expect = 2e-43, Method: Compositional matrix adjust.
Identities = 102/258 (39%), Positives = 140/258 (54%), Gaps = 12/258 (4%)
Query: 114 TNHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLT 173
HFVLVHG G G+WCWYK L+E GYKV+ IDL +G+ D +++ S Y KPL
Sbjct: 13 NQHFVLVHGIGGGSWCWYKIRCLMENSGYKVSCIDLKSAGIDQSDADSVLSFDDYNKPLM 72
Query: 174 DFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQA 233
DF+ LPE+E+VILVGH GG I+ A F KI AV++AA ML G ++ Q
Sbjct: 73 DFMSDLPENEQVILVGHSAGGLSITQACHKFANKIRLAVYVAATMLKFG-----FLTDQD 127
Query: 234 ASD---DLMQQAQKFL--YANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPV 288
D DL + + + G+D PPTS + K R +++ SP +D LA++ +RP
Sbjct: 128 HKDGVPDLSEYGDVYELGFGLGHDKPPTSALVKKEFQRKIIYPLSPHEDSTLAAMLLRPG 187
Query: 289 PFAPVIEKLNLSDL-KYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSP 347
P ++ D + VRR YI T D + QE MI PP + L +DHSP
Sbjct: 188 PLLALMSAQFREDGDEVEKVRRVYIRTRHDKVVKPEQQEAMIKRWPPSTSYELD-SDHSP 246
Query: 348 FFSKPQALHKLLVEISKI 365
FFS P L LL++ + +
Sbjct: 247 FFSTPFLLFGLLLKAAAL 264
>Glyma16g26050.1
Length = 252
Score = 169 bits (427), Expect = 5e-42, Method: Compositional matrix adjust.
Identities = 98/253 (38%), Positives = 139/253 (54%), Gaps = 13/253 (5%)
Query: 115 NHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTD 174
H+VLVHG GAWCW+K LE G+KV +DL SG++ ++ + SQY +PL
Sbjct: 5 KHYVLVHGACHGAWCWHKLKPRLESAGHKVTVLDLAASGINMKKLEDVDTFSQYSEPLLH 64
Query: 175 FLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQAA 234
+ +P++EKV+LVGH FGG I+ AM+ FP K+ VF+AA + HS ++ Q +
Sbjct: 65 LMATIPQNEKVVLVGHSFGGMSIALAMDKFPEKVVVGVFLAAFAPDTEHSPSYVLEQDTS 124
Query: 235 SDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVPFAPVI 294
S+DL + +GN TSF L + +SP +D+ LA +RP I
Sbjct: 125 SEDLDNE----FAPSGNK---TSFLFGPKYLSKKQYQRSPIEDLELAKTLVRPSSL--FI 175
Query: 295 EKL----NLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSPFFS 350
E L N S YG+V R YI ED AIPL Q MI+ + V ++KGADH+ S
Sbjct: 176 EDLSKQKNFSKHGYGSVPRAYIVCTEDLAIPLEFQLWMIHNAGINEVLKIKGADHAAMIS 235
Query: 351 KPQALHKLLVEIS 363
KP+ L+ L +I+
Sbjct: 236 KPRELYNSLQKIA 248
>Glyma04g40170.1
Length = 271
Score = 162 bits (410), Expect = 5e-40, Method: Compositional matrix adjust.
Identities = 93/242 (38%), Positives = 125/242 (51%), Gaps = 5/242 (2%)
Query: 115 NHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTD 174
HFVLVHG G G+WCWYK L+E G KV+ IDL +G+ D +++ S Y KPL D
Sbjct: 13 QHFVLVHGIGGGSWCWYKIRCLMENSGCKVSCIDLKSAGIDQSDADSVLSFDDYNKPLMD 72
Query: 175 FLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQAA 234
F+ LPE+E+VILVGH GG I+ A F KI AV++AA ML G T +
Sbjct: 73 FMSDLPENEQVILVGHSAGGLSITQACHKFANKIRLAVYVAATMLKFGFLTDQDLKDGVP 132
Query: 235 SDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVPF---- 290
+ + G+D PPTS + K +++ SP +D LA++ +RP P
Sbjct: 133 DLSEYGDVYELGFGLGHDKPPTSALVKKEFQHKIIYPLSPHEDSTLAAMLLRPGPLLALT 192
Query: 291 APVIEKLNLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSPFFS 350
+ + D + V R YI T D + QE MI PP + L +DHSPFFS
Sbjct: 193 SAQFREDGDGDGEVEKVCRVYIRTRHDKVVKPEQQEAMIKRWPPSTSYELD-SDHSPFFS 251
Query: 351 KP 352
P
Sbjct: 252 TP 253
>Glyma02g06990.1
Length = 277
Score = 160 bits (405), Expect = 2e-39, Method: Compositional matrix adjust.
Identities = 100/262 (38%), Positives = 136/262 (51%), Gaps = 13/262 (4%)
Query: 106 GVKVDDLETNHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSM 165
G VD H+VLVHG GAW W K LE G+KV +DL SG++ ++ +
Sbjct: 21 GNCVDRNRKKHYVLVHGACHGAWSWCKLKPRLESEGHKVTVLDLAASGINMKRIADVDTF 80
Query: 166 SQYVKPLTDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHST 225
SQY +PL + K+P +EKV+LVGH FGG I+ AME FP K++ VF+ A + H
Sbjct: 81 SQYSEPLLQLMTKIPSNEKVVLVGHSFGGMNIALAMEKFPEKVAVGVFLTAFAPDTEHRP 140
Query: 226 LDIISQQAASDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSM 285
++ Q +S+DL + +GN TS L + SP +D+ LA +
Sbjct: 141 SYVLEQNTSSEDLDNE----FAPSGNK---TSMLFGPEYLSKKQYQLSPVEDLELAKTLV 193
Query: 286 RPVPFAPVIEKL----NLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLK 341
RP IE L N S YG+V R YI ED AIPL Q MI + V ++K
Sbjct: 194 RPSSL--FIEDLSKQKNFSKHGYGSVPRAYIVCTEDLAIPLEYQLWMIQNAGINDVLKIK 251
Query: 342 GADHSPFFSKPQALHKLLVEIS 363
GADH+ FSKP+ L L +I+
Sbjct: 252 GADHAAMFSKPRELFNSLQKIA 273
>Glyma02g38410.1
Length = 288
Score = 159 bits (401), Expect = 6e-39, Method: Compositional matrix adjust.
Identities = 97/247 (39%), Positives = 134/247 (54%), Gaps = 1/247 (0%)
Query: 115 NHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTD 174
HFVLVHG G G WCWYK L+E G+KV+ IDL +G+ D +++ S Y +PL D
Sbjct: 27 QHFVLVHGVGGGGWCWYKIRCLMENSGFKVSCIDLKSAGIDQSDVDSVLSFDDYNQPLMD 86
Query: 175 FLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQAA 234
L LPE+E+VILVGH GG ++ A F KI AV++AA ML G T + +
Sbjct: 87 LLSALPENEQVILVGHSAGGLSVTQACHKFAKKIRLAVYVAATMLKLGFLTDEDLKHGVP 146
Query: 235 SDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVPFAPVI 294
+ + G D PPTS + K R +++ SP +D LA++ +RP P +
Sbjct: 147 DLSEFGDVYRLGFGLGQDKPPTSALVKKEFQRKIIYPLSPHEDSTLAAMLLRPGPILALT 206
Query: 295 EKLNLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSPFFSKPQA 354
+ + D + V R YI T++DN + QE MI P V+ L +DHSPFFS P
Sbjct: 207 SAMFVEDGEVEKVPRVYIRTMQDNVLKPEQQEAMIKRWPLLYVYELD-SDHSPFFSTPFL 265
Query: 355 LHKLLVE 361
L LLV+
Sbjct: 266 LFGLLVK 272
>Glyma02g07060.1
Length = 352
Score = 155 bits (391), Expect = 8e-38, Method: Compositional matrix adjust.
Identities = 92/254 (36%), Positives = 127/254 (50%), Gaps = 5/254 (1%)
Query: 112 LETNHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKP 171
++ HFVLVHG GAWCWYK LE G+KV +DL SG + ++ + SQY +P
Sbjct: 98 IDKKHFVLVHGACHGAWCWYKLKPRLESAGHKVTVLDLAASGANMKKIEDVDTFSQYTEP 157
Query: 172 LTDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQ 231
L L+ +P +EKV+LVGH FGG I+ AME FP K++ VF+ A H ++ +
Sbjct: 158 LLFLLDTIPSNEKVVLVGHSFGGLNIALAMEKFPEKVAVGVFLTAFAPDVEHHPSYVLEK 217
Query: 232 QAASDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVPF- 290
+ L +GN T+ + L D L+ SP +D LA +RP
Sbjct: 218 YSERTPLAAWLDTEFAPSGNK---TTMFFGPNFLSDKLYQLSPIEDFELAKTLIRPSSLF 274
Query: 291 -APVIEKLNLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSPFF 349
+ ++ N S YG+V R +I ED AIPL Q MI V +KG DH
Sbjct: 275 MEDLTKQKNFSKEGYGSVPRAFIVCTEDLAIPLEYQLFMIQNVGFNEVVEIKGTDHMAML 334
Query: 350 SKPQALHKLLVEIS 363
KPQ L L +I+
Sbjct: 335 CKPQELFDSLQQIA 348
>Glyma11g06330.1
Length = 261
Score = 152 bits (384), Expect = 6e-37, Method: Compositional matrix adjust.
Identities = 95/253 (37%), Positives = 130/253 (51%), Gaps = 5/253 (1%)
Query: 113 ETNHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPL 172
E NHFVLVHG G GAWCWYK LLE G+KV +DL SG+ ++D +I + S+Y KPL
Sbjct: 7 EQNHFVLVHGIGHGAWCWYKLKPLLESAGHKVTVLDLAASGIDTHDIEDIHTFSEYSKPL 66
Query: 173 TDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQ 232
D L L +EKV+LVGH FGG I+ AM+ FP KIS +F+ A + + H ++ +
Sbjct: 67 LDLLASLAPNEKVVLVGHSFGGISIALAMDKFPEKISLGIFLTAFVPDTQHKPSHVLEEY 126
Query: 233 AASDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVP-FA 291
L+ +G T+ L + T+D+ L R FA
Sbjct: 127 IDRYPYTGWMDTELWNSGG---KTTLLFGIKFLSTKFYQLCSTEDLELVKTLRRKGSLFA 183
Query: 292 PVIEKL-NLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSPFFS 350
+ K N S K G+V YI + ED IP Q+ MI + + V +KG+DH S
Sbjct: 184 EDLSKAENFSKEKDGSVPSAYIISNEDLVIPKEYQQWMIQNAGIDVVREIKGSDHMVMLS 243
Query: 351 KPQALHKLLVEIS 363
KP L L+EI+
Sbjct: 244 KPHKLCLSLLEIA 256
>Glyma02g07040.1
Length = 248
Score = 147 bits (370), Expect = 2e-35, Method: Compositional matrix adjust.
Identities = 89/251 (35%), Positives = 130/251 (51%), Gaps = 9/251 (3%)
Query: 116 HFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTDF 175
H+VLVHG GAW WYK LE G+K+ ++DL SG++ +++ + SQY PL
Sbjct: 3 HYVLVHGACHGAWSWYKLKPRLESAGHKITSLDLAASGINMKKIDDVHTFSQYSDPLLRL 62
Query: 176 LEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQAAS 235
+ +P++EKV+LVGH GG I+ AM+ FP K++ VF+AA + H ++ +
Sbjct: 63 MATIPKNEKVVLVGHSLGGLNIALAMDKFPKKVTVGVFLAAFAPDTEHQPSYVLEKYNER 122
Query: 236 DDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVPFAPVIE 295
+GN TS + L + L+ SP +D+ LA +RP +E
Sbjct: 123 TPSSAWLDTEFAPSGNK---TSMFFGPNFLSNKLYQLSPIEDLELAKTLVRPSSL--FVE 177
Query: 296 KL----NLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSPFFSK 351
L N S YG+V R YI ED AIP+ Q MI + V ++KGADH SK
Sbjct: 178 DLSTQKNFSKEGYGSVPRAYIVCTEDIAIPMEYQLWMIQNAGINDVLKIKGADHMAMNSK 237
Query: 352 PQALHKLLVEI 362
P+ L + L +I
Sbjct: 238 PRELFESLEKI 248
>Glyma02g07010.1
Length = 253
Score = 145 bits (367), Expect = 5e-35, Method: Compositional matrix adjust.
Identities = 86/251 (34%), Positives = 132/251 (52%), Gaps = 5/251 (1%)
Query: 115 NHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTD 174
H+VLVHG GAW WYK LE G+KV ++DL SG++ +++ + SQY +PL
Sbjct: 2 KHYVLVHGACHGAWSWYKLKPRLESAGHKVTSLDLAASGINMKKIDDVHTFSQYSQPLLH 61
Query: 175 FLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQAA 234
+ +P++EKV+LVGH GG I+ AM+ FP K++ VF+AA + + ++
Sbjct: 62 LMATIPKNEKVVLVGHSLGGLNIALAMDKFPKKVAVGVFLAAFAPDTEYRPSYVVENYIE 121
Query: 235 SDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVPF--AP 292
+ +GN TS L +L L+ SP +D+ LA +RP
Sbjct: 122 RIPPSEWFDTEFAPSGNK---TSILLGPEILAKKLYQLSPIEDLELAKTLVRPSSLFVED 178
Query: 293 VIEKLNLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSPFFSKP 352
+ ++ N S +YG+V R YI ED IP+ Q MI + V ++KGADH S+P
Sbjct: 179 LSQQKNFSKERYGSVPRAYIVCTEDLTIPIEYQLWMIQNAGINDVLKIKGADHMAMNSRP 238
Query: 353 QALHKLLVEIS 363
+ L + L +I+
Sbjct: 239 RELFESLQKIA 249
>Glyma16g26060.1
Length = 261
Score = 144 bits (363), Expect = 2e-34, Method: Compositional matrix adjust.
Identities = 87/254 (34%), Positives = 123/254 (48%), Gaps = 5/254 (1%)
Query: 112 LETNHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKP 171
++ H+VLVHG GAWCWYK LE G+KV +DL SG + ++ + S+Y P
Sbjct: 7 MDRKHYVLVHGACHGAWCWYKLKPRLESAGHKVTVLDLAASGTNMKKIEDVDTFSEYSAP 66
Query: 172 LTDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQ 231
L + +P +EK++LVGH GG I+ AME FP K++ VF+ A + H ++ +
Sbjct: 67 LLQLMATIPSNEKLVLVGHSLGGLNIALAMEKFPEKVAVGVFLTAFAPDTEHHPSYVLEK 126
Query: 232 QAASDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVPF- 290
L +GN TS + L D L+ SP +D+ LA RP
Sbjct: 127 YNERTPLAAWLDTEFAPSGNK---TSMFFGPNFLSDKLYQLSPIEDLELAKTLARPSSLF 183
Query: 291 -APVIEKLNLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSPFF 349
+ ++ N S YG+V R +I ED IPL Q MI V +K ADH
Sbjct: 184 MEDLTKQKNFSKEGYGSVPRAFIVCTEDLGIPLEYQLLMIQNVGFNDVVEVKDADHMVML 243
Query: 350 SKPQALHKLLVEIS 363
KPQ L L +I+
Sbjct: 244 CKPQELFDSLQQIA 257
>Glyma02g07070.1
Length = 264
Score = 140 bits (354), Expect = 2e-33, Method: Compositional matrix adjust.
Identities = 88/256 (34%), Positives = 128/256 (50%), Gaps = 6/256 (2%)
Query: 111 DLETNHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVK 170
D + H+VLVHG +GAW WYK LE G+KV +DL SG + ++ + SQY +
Sbjct: 8 DRKPKHYVLVHGACYGAWLWYKLKPRLESAGHKVTVLDLAASGTNMKKIEDVDTFSQYTE 67
Query: 171 PLTDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIIS 230
PL + +P ++KV+LVGH GG I+ AME FP K++ VF+ A + H ++
Sbjct: 68 PLLQLMATIPPNKKVVLVGHSLGGLNIALAMEKFPEKVAVGVFVTAIIPDIEHKPSYVLE 127
Query: 231 QQAASDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRP--V 288
+ S +GN T L + L S +D+ LA +RP +
Sbjct: 128 KLLESTLATNLLDSEFSKSGNK---TIVVFGPKFLSNKLNQASTIEDIELAKTLIRPGSL 184
Query: 289 PFAPVIEKLNLSDLKYGTVRRFYIETLEDNAIPLSLQENMI-NASPPERVFRLKGADHSP 347
+ ++ N S YG+V +I + ED IPL+ Q MI NA V +KGADH
Sbjct: 185 FIEDLSQQKNFSIQGYGSVPLAFIVSTEDQEIPLNFQHWMIQNAGINVEVLEIKGADHML 244
Query: 348 FFSKPQALHKLLVEIS 363
SKPQ L L++I+
Sbjct: 245 MISKPQELCDSLLQIA 260
>Glyma05g16870.1
Length = 260
Score = 139 bits (350), Expect = 6e-33, Method: Compositional matrix adjust.
Identities = 88/256 (34%), Positives = 127/256 (49%), Gaps = 10/256 (3%)
Query: 112 LETNHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKP 171
++ H+VLVHG GAW WYK LE G+KV +DL SG + + + + S+Y +P
Sbjct: 7 IDKKHYVLVHGACHGAWSWYKLKPRLESAGHKVTVLDLAASGTNMKKID-VETFSEYSEP 65
Query: 172 LTDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQ 231
L + +P +EKV+LVGH GG I+ AME FP K++ VF+ A + + H ++ +
Sbjct: 66 LLQLMATIPPNEKVVLVGHSLGGLNIALAMEKFPEKVAVGVFLTAVVPHTEHKPSYVLEK 125
Query: 232 QAASDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVPFA 291
S +GN + L L+ S +D+ LA +RP
Sbjct: 126 YTESIPAENWLDSGFSQSGNKI---VVILGPKFSSGKLYQASSIEDIELAKTLLRPGSL- 181
Query: 292 PVIEKL----NLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGADHSP 347
IE L N S +YG+V R +I +D IPLS Q MI + V +KGADH
Sbjct: 182 -FIEDLSQIKNFSKERYGSVPRAFIICTDDLGIPLSFQLWMIQKAGVSDVVEIKGADHMA 240
Query: 348 FFSKPQALHKLLVEIS 363
SKPQ L L++I+
Sbjct: 241 MLSKPQELCDSLLKIA 256
>Glyma07g13350.1
Length = 283
Score = 138 bits (348), Expect = 9e-33, Method: Compositional matrix adjust.
Identities = 89/256 (34%), Positives = 130/256 (50%), Gaps = 11/256 (4%)
Query: 116 HFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTDF 175
HFVLVHGG GAWCWYK L+ G+ V +D+ GV+ + S+S+Y +PL F
Sbjct: 28 HFVLVHGGLHGAWCWYKVANKLKSEGHNVTTLDMAACGVNPKQRQEVHSVSEYNEPLMTF 87
Query: 176 LEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQAAS 235
+ LP EKVILVGH GG S AME +P KIS AVFI A ++ S + T Q+
Sbjct: 88 MASLPPEEKVILVGHSLGGLSASIAMENYPEKISVAVFITATVV-SQNLTYPAFLQERRR 146
Query: 236 DDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTKDVALASVSMRPVPFAPVIE 295
+ +F +G + P L LL + + +D+ LA +RP+P P+
Sbjct: 147 RLISLNLDEFFILDGVNKAPILSSLGVELLASRFYQLTSNEDLTLAFCLVRPLP--PITS 204
Query: 296 KLNL-------SDLKYGTVRRFYIETLEDNAIPLSLQENMINASPP-ERVFRLKGADHSP 347
+ L + K G V + +I + +DN Q +I ++ P V +K +DH
Sbjct: 205 DVKLLMKQTAVTKYKNGRVSKVFIISEKDNLHTEDFQRWVIESTGPYAEVKVIKDSDHMV 264
Query: 348 FFSKPQALHKLLVEIS 363
FSKP+ L L++I+
Sbjct: 265 MFSKPKKLSFELLKIA 280
>Glyma02g07000.1
Length = 254
Score = 134 bits (337), Expect = 2e-31, Method: Compositional matrix adjust.
Identities = 89/259 (34%), Positives = 124/259 (47%), Gaps = 18/259 (6%)
Query: 115 NHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTD 174
H+VLVHG GAWCWYK LE G+KV ++ SG++ ++ + S+Y +PL
Sbjct: 1 KHYVLVHGACHGAWCWYKLKPRLESEGHKVTVLNHAASGINMKKIEDVGTFSEYTEPLLQ 60
Query: 175 FLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHS---TLDIISQ 231
L+ +P +EKV+LVGH GG I+ AME F K++ VF+AA H L+ ++
Sbjct: 61 LLDTIPSNEKVVLVGHSLGGMSIAIAMEKFQEKVAVGVFLAAFAPDVEHRPSYVLEKYNE 120
Query: 232 QAASDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSP---TKDVALASVSMRPV 288
+ S++ + GN T L L+ P D+ LA RP
Sbjct: 121 RTPSEEWLDTE---FCQCGNK---TLMFFGPKFLSYKLYQLCPGPLRCDLELAMTLARPP 174
Query: 289 PFAPVIEKL----NLSDLKYGTVRRFYIETLEDNAIPLSLQENMINASPPERVFRLKGAD 344
F IE L N S +YG+V R Y ED IPL+ Q MI + + GAD
Sbjct: 175 SF--FIEHLSKEKNFSKQRYGSVPRVYTVCPEDLGIPLNYQHWMIQNAGFNDGVEINGAD 232
Query: 345 HSPFFSKPQALHKLLVEIS 363
H P KPQ L L +I+
Sbjct: 233 HKPMVCKPQELCDSLQQIA 251
>Glyma04g40170.3
Length = 205
Score = 121 bits (304), Expect = 1e-27, Method: Compositional matrix adjust.
Identities = 68/181 (37%), Positives = 94/181 (51%), Gaps = 7/181 (3%)
Query: 115 NHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTD 174
HFVLVHG G G+WCWYK L+E G KV+ IDL +G+ D +++ S Y KPL D
Sbjct: 13 QHFVLVHGIGGGSWCWYKIRCLMENSGCKVSCIDLKSAGIDQSDADSVLSFDDYNKPLMD 72
Query: 175 FLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHSTLDIISQQAA 234
F+ LPE+E+VILVGH GG I+ A F KI AV++AA ML G T +
Sbjct: 73 FMSDLPENEQVILVGHSAGGLSITQACHKFANKIRLAVYVAATMLKFGFLTDQDLKDGVP 132
Query: 235 SDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTK-------DVALASVSMRP 287
+ + G+D PPTS + K +++ SP + D+ +V R
Sbjct: 133 DLSEYGDVYELGFGLGHDKPPTSALVKKEFQHKIIYPLSPHECNDGSGFDIGRDAVEARA 192
Query: 288 V 288
+
Sbjct: 193 I 193
>Glyma04g40170.2
Length = 162
Score = 116 bits (290), Expect = 5e-26, Method: Compositional matrix adjust.
Identities = 56/111 (50%), Positives = 70/111 (63%)
Query: 115 NHFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTD 174
HFVLVHG G G+WCWYK L+E G KV+ IDL +G+ D +++ S Y KPL D
Sbjct: 13 QHFVLVHGIGGGSWCWYKIRCLMENSGCKVSCIDLKSAGIDQSDADSVLSFDDYNKPLMD 72
Query: 175 FLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLTSGHST 225
F+ LPE+E+VILVGH GG I+ A F KI AV++AA ML G T
Sbjct: 73 FMSDLPENEQVILVGHSAGGLSITQACHKFANKIRLAVYVAATMLKFGFLT 123
>Glyma02g07030.1
Length = 211
Score = 103 bits (257), Expect = 3e-22, Method: Compositional matrix adjust.
Identities = 72/211 (34%), Positives = 103/211 (48%), Gaps = 15/211 (7%)
Query: 160 NNITSMSQYVKPLTDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAML 219
++ + S+Y +PL L+ +P +EKV+LVGH GG I+ AME FP K++ VF+AA
Sbjct: 5 EDVDTFSEYTEPLLQLLDTIPSNEKVVLVGHSLGGMSIAIAMEKFPEKVAVGVFLAAFAP 64
Query: 220 TSGHS---TLDIISQQAASDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFNQSPTK 276
H L+ +++ S++ + GN T L L+ P +
Sbjct: 65 DVEHRPSYVLEKYNERTPSEEWLDTE---FCQCGNK---TLIFFGPKFLSYKLYQLCPIE 118
Query: 277 DVALASVSMRPVPFAPVIEKL----NLSDLKYGTVRRFYIETLEDNAIPLSLQENMINAS 332
D+ LA RP + IE L N S +YG+V R YI ED IPL+ Q MI +
Sbjct: 119 DLELAMTLARPSSY--FIEDLSKEKNFSKQRYGSVPRVYIVCPEDLGIPLNYQHWMIQNA 176
Query: 333 PPERVFRLKGADHSPFFSKPQALHKLLVEIS 363
V + GADH P F KPQ L L +I+
Sbjct: 177 GFNDVAEINGADHMPMFCKPQELCDSLQQIA 207
>Glyma01g38950.1
Length = 189
Score = 102 bits (253), Expect = 9e-22, Method: Compositional matrix adjust.
Identities = 69/215 (32%), Positives = 96/215 (44%), Gaps = 48/215 (22%)
Query: 152 SGVHSYDTNNITSMSQYVKPLTDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKA 211
+ + S + S+++Y +PL +FL L E E+VILVGH FGG CIS AMELFP KI+ A
Sbjct: 16 ASIKSRRAIELNSITEYFEPLMEFLLSLAEEEQVILVGHSFGGLCISVAMELFPTKIAAA 75
Query: 212 VFIAAAMLTSGHSTLDIISQQAASDDLMQQAQKFLYANGNDLPPTSFDLDKSLLRDLLFN 271
VF++A + + + LD++ +
Sbjct: 76 VFVSAWLPSPDLNYLDLLQE---------------------------------------- 95
Query: 272 QSPTKDVALASVSMRPVPF---APVIEKLNLSDLKYGTVRRFYIETLEDNAIPLSLQENM 328
D+ LA +RP P + E L+ YG V + YI +D Q M
Sbjct: 96 -----DLTLALSLLRPFPIFGDEDLQENTQLTRDNYGIVAKVYIVCEQDKLFKHDFQLFM 150
Query: 329 INASPPERVFRLKGADHSPFFSKPQALHKLLVEIS 363
I +PP V + GADH FSKPQ L L EI+
Sbjct: 151 IERNPPNDVKVIAGADHMSMFSKPQELFSYLQEIT 185
>Glyma07g13370.1
Length = 80
Score = 89.7 bits (221), Expect = 5e-18, Method: Composition-based stats.
Identities = 39/79 (49%), Positives = 49/79 (62%)
Query: 116 HFVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTDF 175
HFVLVHGG GAWCWYK + L+ G+ V +DL +G++ + S S+Y +PL F
Sbjct: 2 HFVLVHGGLHGAWCWYKVVNQLKSAGHNVTTLDLAAAGINPKQVQGVNSFSEYNEPLITF 61
Query: 176 LEKLPESEKVILVGHDFGG 194
L L EKVILVGH GG
Sbjct: 62 LASLLPEEKVILVGHSLGG 80
>Glyma01g38820.1
Length = 128
Score = 60.8 bits (146), Expect = 2e-09, Method: Compositional matrix adjust.
Identities = 37/99 (37%), Positives = 50/99 (50%), Gaps = 4/99 (4%)
Query: 269 LFNQSPTKDVALASVSMRPVPFAP----VIEKLNLSDLKYGTVRRFYIETLEDNAIPLSL 324
L+ P +D+ LA +RP + E L+ KYGTV + YI +DN +
Sbjct: 26 LYQLCPPEDLTLAMSLLRPTRIYGDEELMRENTRLTKDKYGTVAKVYIVCEQDNELKQDF 85
Query: 325 QENMINASPPERVFRLKGADHSPFFSKPQALHKLLVEIS 363
Q +MI +P V + GADH P FSKPQ L L EI+
Sbjct: 86 QLSMIERNPHNEVKEIVGADHVPMFSKPQELFSYLHEIA 124
>Glyma03g25400.1
Length = 75
Score = 58.9 bits (141), Expect = 9e-09, Method: Composition-based stats.
Identities = 28/55 (50%), Positives = 35/55 (63%)
Query: 162 ITSMSQYVKPLTDFLEKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAA 216
+ S S+Y +PL F+ P EKVILVGH GG +S AME +P KI+ VFI A
Sbjct: 19 VNSFSEYNEPLITFMVSFPPEEKVILVGHTLGGLSVSVAMEKYPEKITVVVFITA 73
>Glyma02g07020.1
Length = 241
Score = 56.6 bits (135), Expect = 4e-08, Method: Compositional matrix adjust.
Identities = 64/232 (27%), Positives = 104/232 (44%), Gaps = 44/232 (18%)
Query: 147 IDLTGSGVHSYDTNNITSMSQYVKPLTDFLEKLPESEKVILVGHDFGGACISYAMELFPL 206
+DL SG++ M + PL + +P++EKV A S+ ++ +
Sbjct: 35 LDLAASGIN---------MKKIEDPLLHLMATIPKNEKV---------ASSSWHAKITMI 76
Query: 207 KISKAVFIAAAMLTSGHSTLDIISQQAASDDLMQQAQKF-----LYANG-NDLPPTSFDL 260
+ + ++ AM+ + S + + + + L+ +KF ++ G N+ P+S L
Sbjct: 77 SL---LLLSLAMICNCFSYSN---ESLSFEPLLYIGRKFKNPTNCWSTGYNERTPSSAWL 130
Query: 261 DKSLL-----RDLLFNQSPTKDVALASVSMRPVPFAPVIEKL----NLSDLKYGTVRRFY 311
D + F KD+ LA +RP V+E L N S YG+V R Y
Sbjct: 131 DTEFAPSGNKTSMFF---ALKDLELAKTLVRPSSL--VVEDLSKQKNFSKEGYGSVPRAY 185
Query: 312 IETLEDNAIPLSLQENMINASPPERVFRLKGADHSPFFSKPQALHKLLVEIS 363
I +D AIPL Q MI + V ++KGADH P SKP+ L L +I+
Sbjct: 186 IVCTKDIAIPLEYQLLMIKNTGFNDVLKIKGADHMPMNSKPRELFDSLEKIA 237
>Glyma01g38810.1
Length = 70
Score = 54.7 bits (130), Expect = 2e-07, Method: Composition-based stats.
Identities = 22/60 (36%), Positives = 36/60 (60%)
Query: 117 FVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTDFL 176
VLVHG AWCWYK + LL+ G++V +++ S ++ + S+++Y +PL FL
Sbjct: 9 LVLVHGAYHKAWCWYKIVDLLKSSGHEVTTLNMDTSSINLKQMDKHNSITKYFEPLMKFL 68
>Glyma03g25410.1
Length = 174
Score = 51.6 bits (122), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 34/104 (32%), Positives = 49/104 (47%), Gaps = 12/104 (11%)
Query: 117 FVLVHGGGFGAWCWYKTIALLEEGGYKVAAIDLTGSGVHSYDTNNITSMSQYVKPLTDFL 176
+V V G GAWCWYK L+ G+ V L ++ + S+S+Y +PL FL
Sbjct: 2 YVPVDGSFRGAWCWYKVANKLKSEGHNVTTACLLLLSINPKHMQEVHSISEYHEPLMTFL 61
Query: 177 EKLPESEKVILVGHDFGGACISYAMELFPLKISKAVFIAAAMLT 220
+ L +KV S AM +P IS AV I A +++
Sbjct: 62 DSLSIEKKV------------SVAMGKYPENISVAVCITATVVS 93