Miyakogusa Predicted Gene
- Lj1g3v3268810.1
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= Lj1g3v3268810.1 tr|G7KV76|G7KV76_MEDTR Lipid phosphate
phosphatase OS=Medicago truncatula GN=MTR_7g082670 PE=4
SV=1,72.01,0,seg,NULL; no description,Phosphatidic acid
phosphatase/chloroperoxidase, N-terminal; Acid phosphatas,CUFF.30288.1
(338 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma18g53100.1 536 e-152
Glyma18g53100.2 437 e-123
Glyma02g09820.1 427 e-120
Glyma10g41590.1 417 e-117
Glyma20g25640.1 415 e-116
Glyma20g25650.1 406 e-113
Glyma10g41580.1 404 e-113
Glyma09g18450.2 400 e-111
Glyma09g18450.1 400 e-111
Glyma18g06580.1 280 2e-75
Glyma11g29390.1 181 8e-46
Glyma07g08990.1 59 8e-09
Glyma02g30910.1 54 3e-07
Glyma08g31880.1 49 6e-06
>Glyma18g53100.1
Length = 343
Score = 536 bits (1380), Expect = e-152, Method: Compositional matrix adjust.
Identities = 251/330 (76%), Positives = 287/330 (86%), Gaps = 3/330 (0%)
Query: 2 AWWNLRPLFRSQTIRNPFQDFRMREVQLGSHTMTSHGYALARTHMHDWXXXXXXXXXXXX 61
+WW+LRP FR Q++R FQ+FR REVQLGSHT++SHGYA+ARTH HDW
Sbjct: 3 SWWDLRPFFRFQSVRTRFQEFRTREVQLGSHTVSSHGYAVARTHKHDWLILLLLVLIVIS 62
Query: 62 XYMIHPFYRFVGKDMMTDLRYPLKSNTVPVWSVPIYAVLLPVVIFLVVYIRRRDIYDLHH 121
Y+IHPF+RFVGKDMMTDL+YPLKSNTVP W++PIYA+LLP+VIFL VYIRRRD+YDLHH
Sbjct: 63 LYIIHPFHRFVGKDMMTDLKYPLKSNTVPAWAIPIYAILLPIVIFLGVYIRRRDVYDLHH 122
Query: 122 AILGLLFSILVTAVLTDAIKDAVGRPRPDFFWRCFPDGKDVYDALGNVVCHGDKDVIKEG 181
A+LGLLFS+L+TAV T+AIK+AVGRPRPDFFWRCFPDGKDVYD G+V+CHGD+ VIKEG
Sbjct: 123 AVLGLLFSVLITAVFTEAIKNAVGRPRPDFFWRCFPDGKDVYDKWGDVICHGDQKVIKEG 182
Query: 182 HKSFPSGHTAWSFAGLGFLSLYLSGKIKVFDQKGHIAKLCIVVLPLLFASLVGISRVDDY 241
+KSFPSGHT+ SF+GLGFLSLYLSGKIK FD+KGH+AKLCIV LPLL ASLVGISRVDDY
Sbjct: 183 YKSFPSGHTSGSFSGLGFLSLYLSGKIKAFDRKGHVAKLCIVFLPLLVASLVGISRVDDY 242
Query: 242 WHHWQDVFAGGLLGLVMATFCYLQFFPPPYHPEGWGPYAYFRMLEESRGMTQQAANGESS 301
WHHWQDVFAGGLLGL +ATFCYLQFFPPPYH EGWGPYAYFRMLEESRGMT Q + ++S
Sbjct: 243 WHHWQDVFAGGLLGLTVATFCYLQFFPPPYHSEGWGPYAYFRMLEESRGMT-QVPSVQNS 301
Query: 302 SEAQLREAQ--DQEGQGFHGCMGITLARDQ 329
+AQL EAQ QE QG HGCMG+TL+RD
Sbjct: 302 GQAQLAEAQAESQEEQGLHGCMGLTLSRDH 331
>Glyma18g53100.2
Length = 267
Score = 437 bits (1125), Expect = e-123, Method: Compositional matrix adjust.
Identities = 206/256 (80%), Positives = 232/256 (90%), Gaps = 3/256 (1%)
Query: 76 MMTDLRYPLKSNTVPVWSVPIYAVLLPVVIFLVVYIRRRDIYDLHHAILGLLFSILVTAV 135
MMTDL+YPLKSNTVP W++PIYA+LLP+VIFL VYIRRRD+YDLHHA+LGLLFS+L+TAV
Sbjct: 1 MMTDLKYPLKSNTVPAWAIPIYAILLPIVIFLGVYIRRRDVYDLHHAVLGLLFSVLITAV 60
Query: 136 LTDAIKDAVGRPRPDFFWRCFPDGKDVYDALGNVVCHGDKDVIKEGHKSFPSGHTAWSFA 195
T+AIK+AVGRPRPDFFWRCFPDGKDVYD G+V+CHGD+ VIKEG+KSFPSGHT+ SF+
Sbjct: 61 FTEAIKNAVGRPRPDFFWRCFPDGKDVYDKWGDVICHGDQKVIKEGYKSFPSGHTSGSFS 120
Query: 196 GLGFLSLYLSGKIKVFDQKGHIAKLCIVVLPLLFASLVGISRVDDYWHHWQDVFAGGLLG 255
GLGFLSLYLSGKIK FD+KGH+AKLCIV LPLL ASLVGISRVDDYWHHWQDVFAGGLLG
Sbjct: 121 GLGFLSLYLSGKIKAFDRKGHVAKLCIVFLPLLVASLVGISRVDDYWHHWQDVFAGGLLG 180
Query: 256 LVMATFCYLQFFPPPYHPEGWGPYAYFRMLEESRGMTQQAANGESSSEAQLREAQ--DQE 313
L +ATFCYLQFFPPPYH EGWGPYAYFRMLEESRGMT Q + ++S +AQL EAQ QE
Sbjct: 181 LTVATFCYLQFFPPPYHSEGWGPYAYFRMLEESRGMT-QVPSVQNSGQAQLAEAQAESQE 239
Query: 314 GQGFHGCMGITLARDQ 329
QG HGCMG+TL+RD
Sbjct: 240 EQGLHGCMGLTLSRDH 255
>Glyma02g09820.1
Length = 273
Score = 427 bits (1099), Expect = e-120, Method: Compositional matrix adjust.
Identities = 199/259 (76%), Positives = 229/259 (88%)
Query: 2 AWWNLRPLFRSQTIRNPFQDFRMREVQLGSHTMTSHGYALARTHMHDWXXXXXXXXXXXX 61
+WW+LRP FR Q++R FQ+FR REVQLGSHT++SHGYA+ARTH HDW
Sbjct: 3 SWWDLRPFFRFQSVRTRFQEFRTREVQLGSHTVSSHGYAVARTHKHDWLILLLLVLIVIG 62
Query: 62 XYMIHPFYRFVGKDMMTDLRYPLKSNTVPVWSVPIYAVLLPVVIFLVVYIRRRDIYDLHH 121
Y+IHPF+RFVGKDMMTDL+YPLKSNTVPVW+VPIYA LLP+VIF+VVYI+RRD+YDLHH
Sbjct: 63 LYVIHPFHRFVGKDMMTDLKYPLKSNTVPVWAVPIYAGLLPIVIFVVVYIQRRDVYDLHH 122
Query: 122 AILGLLFSILVTAVLTDAIKDAVGRPRPDFFWRCFPDGKDVYDALGNVVCHGDKDVIKEG 181
A+L LLFSIL+T+V T+AIK+AVGRPRPDFFWRCFPDGKDVYD G+V+CHGDK VIKEG
Sbjct: 123 AVLCLLFSILITSVFTEAIKNAVGRPRPDFFWRCFPDGKDVYDKWGDVICHGDKKVIKEG 182
Query: 182 HKSFPSGHTAWSFAGLGFLSLYLSGKIKVFDQKGHIAKLCIVVLPLLFASLVGISRVDDY 241
+KSFPSGHT+WSFAGLGFLSLYLSGKIK FD+KGH+AKLCIV +PLLFASL+GISRVDDY
Sbjct: 183 YKSFPSGHTSWSFAGLGFLSLYLSGKIKAFDRKGHVAKLCIVFMPLLFASLIGISRVDDY 242
Query: 242 WHHWQDVFAGGLLGLVMAT 260
WHHWQDVFAGGLLG + T
Sbjct: 243 WHHWQDVFAGGLLGWCILT 261
>Glyma10g41590.1
Length = 337
Score = 417 bits (1073), Expect = e-117, Method: Compositional matrix adjust.
Identities = 199/305 (65%), Positives = 236/305 (77%), Gaps = 5/305 (1%)
Query: 18 PFQDFRMREVQL--GSHTMTSHGYALARTHMHDWXXXXXXXXXXXXXYMIHPFYRFVGKD 75
PFQ QL +HTM SHG ALAR H+ DW ++IHPF RFVG+D
Sbjct: 15 PFQGQGGMRQQLDPSAHTMKSHGSALARKHVRDWLILLLLIVIEIVLFVIHPFKRFVGRD 74
Query: 76 MMTDLRYPLKSNTVPVWSVPIYAVLLPVVIFLVVYIRRRDIYDLHHAILGLLFSILVTAV 135
MM D+RYP+K NTVPVW+VP+YAVLLP+ +FL+ Y+RRR +YDLHH+ILGLLF++L+T V
Sbjct: 75 MMEDIRYPMKENTVPVWAVPLYAVLLPMAVFLLFYMRRRCVYDLHHSILGLLFAVLITGV 134
Query: 136 LTDAIKDAVGRPRPDFFWRCFPDGKDVYDALGNVVCHGDKDVIKEGHKSFPSGHTAWSFA 195
TDAIK+AVGRPRPDFFWRCFPDG + YD G VVCHG+ IKEGHKSFPSGHT+WSFA
Sbjct: 135 FTDAIKNAVGRPRPDFFWRCFPDGVENYDRWGGVVCHGNASDIKEGHKSFPSGHTSWSFA 194
Query: 196 GLGFLSLYLSGKIKVFDQKGHIAKLCIVVLPLLFASLVGISRVDDYWHHWQDVFAGGLLG 255
GLGFLSLYLSGKIK FD+KGH+AKLCIV LPLL A LV ISRVDDYWHHWQDVFAGG+LG
Sbjct: 195 GLGFLSLYLSGKIKAFDRKGHVAKLCIVFLPLLVACLVAISRVDDYWHHWQDVFAGGILG 254
Query: 256 LVMATFCYLQFFPPPYHPEGWGPYAYFRMLEESRG---MTQQAANGESSSEAQLREAQDQ 312
LV+ATFCY+QFFPPPY+ EGWGPYAYFR +EESR + +++ G++ E + +
Sbjct: 255 LVVATFCYMQFFPPPYNDEGWGPYAYFRAMEESRTNPIINRESPVGQAMEERVTNQEPRR 314
Query: 313 EGQGF 317
G F
Sbjct: 315 NGDTF 319
>Glyma20g25640.1
Length = 341
Score = 415 bits (1067), Expect = e-116, Method: Compositional matrix adjust.
Identities = 192/289 (66%), Positives = 230/289 (79%), Gaps = 6/289 (2%)
Query: 25 REVQLGSHTMTSHGYALARTHMHDWXXXXXXXXXXXXXYMIHPFYRFVGKDMMTDLRYPL 84
++V +HT+ SHG +LAR H DW ++IHPF RFVG+DMM DLRYP+
Sbjct: 27 QQVDPSAHTIKSHGASLARKHARDWLILLLLIVIEIVLFVIHPFKRFVGRDMMEDLRYPM 86
Query: 85 KSNTVPVWSVPIYAVLLPVVIFLVVYIRRRDIYDLHHAILGLLFSILVTAVLTDAIKDAV 144
K NTVPVW+VP+YAVLLP+ +FL+ Y+RRRD+YDLHH++LGLLF++L+T V TDAIK+AV
Sbjct: 87 KENTVPVWAVPLYAVLLPMAVFLLFYMRRRDVYDLHHSVLGLLFAVLITGVFTDAIKNAV 146
Query: 145 GRPRPDFFWRCFPDGKDVYDALGNVVCHGDKDVIKEGHKSFPSGHTAWSFAGLGFLSLYL 204
GRPRPDF+WRCFPDG + YD+ G VVCHG+ IKEGHKSFPSGHT+WSFAGLGFLSLYL
Sbjct: 147 GRPRPDFYWRCFPDGVENYDSWGGVVCHGNASDIKEGHKSFPSGHTSWSFAGLGFLSLYL 206
Query: 205 SGKIKVFDQKGHIAKLCIVVLPLLFASLVGISRVDDYWHHWQDVFAGGLLGLVMATFCYL 264
SGKIK FD+KGH+AKLCIV LPLL A LV ISRVDDYWHHWQDVFAGG+LGLV+ATFCY+
Sbjct: 207 SGKIKAFDRKGHVAKLCIVFLPLLVACLVAISRVDDYWHHWQDVFAGGILGLVVATFCYM 266
Query: 265 QFFPPPYHPEGWGPYAYFRMLEESRGMTQQAANGESSSEAQLREAQDQE 313
QFFP PY+ EGWGPYAYFR +EESR AN + E + +A +
Sbjct: 267 QFFPAPYNDEGWGPYAYFRAMEESR------ANANINRELPVGQAMEDR 309
>Glyma20g25650.1
Length = 322
Score = 406 bits (1044), Expect = e-113, Method: Compositional matrix adjust.
Identities = 185/288 (64%), Positives = 229/288 (79%), Gaps = 1/288 (0%)
Query: 24 MREVQLGSHTMTSHGYALARTHMHDWXXXXXXXXXXXXXYMIHPFYRFVGKDMMTDLRYP 83
M E+QLG HT+ SHG +ARTHMHDW +I PF+RFVG+ MMTDLRYP
Sbjct: 1 MPEIQLGMHTIRSHGTRVARTHMHDWLILLLLVIIDAVLNLIQPFHRFVGEGMMTDLRYP 60
Query: 84 LKSNTVPVWSVPIYAVLLPVVIFLVVYIRRRDIYDLHHAILGLLFSILVTAVLTDAIKDA 143
LK+NT+P W+VPI A+LLP+ +FLV Y R+D+YDLHHAI+GLLFS+L+TAV+TDAIKDA
Sbjct: 61 LKANTIPFWAVPIIAILLPLAVFLVYYFIRKDVYDLHHAIMGLLFSVLITAVMTDAIKDA 120
Query: 144 VGRPRPDFFWRCFPDGKDVYDAL-GNVVCHGDKDVIKEGHKSFPSGHTAWSFAGLGFLSL 202
VGRPRPDFFWRCFPDGK V+D + NV+C GDK VIKEGHKSFPSGHT+WSFAGL +L+
Sbjct: 121 VGRPRPDFFWRCFPDGKGVFDPVTSNVLCTGDKGVIKEGHKSFPSGHTSWSFAGLVYLAW 180
Query: 203 YLSGKIKVFDQKGHIAKLCIVVLPLLFASLVGISRVDDYWHHWQDVFAGGLLGLVMATFC 262
YLSGK++ FD++GH+AKLC+V LP+L A+++ +SRVDDYWHHWQDVFAG L+G+++A+FC
Sbjct: 181 YLSGKLRAFDRRGHVAKLCLVFLPILVAAMIAVSRVDDYWHHWQDVFAGALIGMIIASFC 240
Query: 263 YLQFFPPPYHPEGWGPYAYFRMLEESRGMTQQAANGESSSEAQLREAQ 310
YLQFFPPPY +GWGP+AYF+ML ESR Q + Q E Q
Sbjct: 241 YLQFFPPPYDVDGWGPHAYFQMLAESRNGAQPSTVNNEIHHVQSAELQ 288
>Glyma10g41580.1
Length = 322
Score = 404 bits (1037), Expect = e-113, Method: Compositional matrix adjust.
Identities = 186/288 (64%), Positives = 227/288 (78%), Gaps = 1/288 (0%)
Query: 24 MREVQLGSHTMTSHGYALARTHMHDWXXXXXXXXXXXXXYMIHPFYRFVGKDMMTDLRYP 83
M E+QLG HT+ SHG +AR HMHDW +I PF+RFVG+ MMTDLRYP
Sbjct: 1 MPEIQLGMHTIRSHGTRVARIHMHDWLILLLLVIIDAVLNIIQPFHRFVGEGMMTDLRYP 60
Query: 84 LKSNTVPVWSVPIYAVLLPVVIFLVVYIRRRDIYDLHHAILGLLFSILVTAVLTDAIKDA 143
LK+NT+P W+VPI A+LLP+ +FLV Y R+D+YDLHHAILGLLFS+L+TAV+TDAIKDA
Sbjct: 61 LKANTIPFWAVPIIAILLPLAVFLVYYFIRKDVYDLHHAILGLLFSVLITAVMTDAIKDA 120
Query: 144 VGRPRPDFFWRCFPDGKDVYDAL-GNVVCHGDKDVIKEGHKSFPSGHTAWSFAGLGFLSL 202
VGRPRPDFFWRCFPDGK V+D + NV+C GDK VIKEGHKSFPSGHT+WSFAGL +L+
Sbjct: 121 VGRPRPDFFWRCFPDGKGVFDPVTSNVLCTGDKGVIKEGHKSFPSGHTSWSFAGLVYLAW 180
Query: 203 YLSGKIKVFDQKGHIAKLCIVVLPLLFASLVGISRVDDYWHHWQDVFAGGLLGLVMATFC 262
YLSGK++ FD++GH+AKLC+V LP L A+++ +SRVDDYWHHWQDVFAG L+G+V+A+FC
Sbjct: 181 YLSGKLRAFDRRGHVAKLCLVFLPFLVAAMIAVSRVDDYWHHWQDVFAGALIGMVIASFC 240
Query: 263 YLQFFPPPYHPEGWGPYAYFRMLEESRGMTQQAANGESSSEAQLREAQ 310
YLQFFPPPY +GWGP+AYF+ML ESR Q + Q E Q
Sbjct: 241 YLQFFPPPYDIDGWGPHAYFQMLAESRNGAQPSTVNNEIHHVQSAELQ 288
>Glyma09g18450.2
Length = 302
Score = 400 bits (1027), Expect = e-111, Method: Compositional matrix adjust.
Identities = 185/285 (64%), Positives = 226/285 (79%), Gaps = 2/285 (0%)
Query: 24 MREVQLGSHTMTSHGYALARTHMHDWXXXXXXXXXXXXXYMIHPFYRFVGKDMMTDLRYP 83
M E QL HT+ SHG +ARTHMHDW +I PF+RFVG+ MM+DLRYP
Sbjct: 1 MPEDQLNRHTIRSHGAKVARTHMHDWLILLLLVIIDGILNVIEPFHRFVGEGMMSDLRYP 60
Query: 84 LKSNTVPVWSVPIYAVLLPVVIFLVVYIRRRDIYDLHHAILGLLFSILVTAVLTDAIKDA 143
LK NT+P W+VPI A+LLP+ I LV Y+ R+D+YD HHAILGLLFS+L+TAV+TDAIKD
Sbjct: 61 LKDNTIPFWAVPIVAILLPIAIILVYYLIRKDVYDFHHAILGLLFSVLITAVITDAIKDG 120
Query: 144 VGRPRPDFFWRCFPDGKDVYDALG-NVVCHGDKDVIKEGHKSFPSGHTAWSFAGLGFLSL 202
VGRPRPDFFWRCFPDGK V+D + NV C GDK VIKEGHKSFPSGHT+WSFAGLGFL+
Sbjct: 121 VGRPRPDFFWRCFPDGKGVFDPVTRNVRCTGDKSVIKEGHKSFPSGHTSWSFAGLGFLAW 180
Query: 203 YLSGKIKVFDQKGHIAKLCIVVLPLLFASLVGISRVDDYWHHWQDVFAGGLLGLVMATFC 262
YLSGKIK FD++GH+AKLCIV PLL A+++ +SRVDDYWHHWQDVF GGL+GL +++FC
Sbjct: 181 YLSGKIKAFDRRGHVAKLCIVFFPLLVAAMIAVSRVDDYWHHWQDVFTGGLIGLTISSFC 240
Query: 263 YLQFFPPPYHPEGWGPYAYFRMLEESRGMTQQAANGESSSEAQLR 307
YLQFFPPPY +GWGP+AYF+ML E G+ Q ++N + A+++
Sbjct: 241 YLQFFPPPYDTDGWGPHAYFQMLAEPNGV-QTSSNSNYAQHAEVQ 284
>Glyma09g18450.1
Length = 302
Score = 400 bits (1027), Expect = e-111, Method: Compositional matrix adjust.
Identities = 185/285 (64%), Positives = 226/285 (79%), Gaps = 2/285 (0%)
Query: 24 MREVQLGSHTMTSHGYALARTHMHDWXXXXXXXXXXXXXYMIHPFYRFVGKDMMTDLRYP 83
M E QL HT+ SHG +ARTHMHDW +I PF+RFVG+ MM+DLRYP
Sbjct: 1 MPEDQLNRHTIRSHGAKVARTHMHDWLILLLLVIIDGILNVIEPFHRFVGEGMMSDLRYP 60
Query: 84 LKSNTVPVWSVPIYAVLLPVVIFLVVYIRRRDIYDLHHAILGLLFSILVTAVLTDAIKDA 143
LK NT+P W+VPI A+LLP+ I LV Y+ R+D+YD HHAILGLLFS+L+TAV+TDAIKD
Sbjct: 61 LKDNTIPFWAVPIVAILLPIAIILVYYLIRKDVYDFHHAILGLLFSVLITAVITDAIKDG 120
Query: 144 VGRPRPDFFWRCFPDGKDVYDALG-NVVCHGDKDVIKEGHKSFPSGHTAWSFAGLGFLSL 202
VGRPRPDFFWRCFPDGK V+D + NV C GDK VIKEGHKSFPSGHT+WSFAGLGFL+
Sbjct: 121 VGRPRPDFFWRCFPDGKGVFDPVTRNVRCTGDKSVIKEGHKSFPSGHTSWSFAGLGFLAW 180
Query: 203 YLSGKIKVFDQKGHIAKLCIVVLPLLFASLVGISRVDDYWHHWQDVFAGGLLGLVMATFC 262
YLSGKIK FD++GH+AKLCIV PLL A+++ +SRVDDYWHHWQDVF GGL+GL +++FC
Sbjct: 181 YLSGKIKAFDRRGHVAKLCIVFFPLLVAAMIAVSRVDDYWHHWQDVFTGGLIGLTISSFC 240
Query: 263 YLQFFPPPYHPEGWGPYAYFRMLEESRGMTQQAANGESSSEAQLR 307
YLQFFPPPY +GWGP+AYF+ML E G+ Q ++N + A+++
Sbjct: 241 YLQFFPPPYDTDGWGPHAYFQMLAEPNGV-QTSSNSNYAQHAEVQ 284
>Glyma18g06580.1
Length = 222
Score = 280 bits (716), Expect = 2e-75, Method: Compositional matrix adjust.
Identities = 139/220 (63%), Positives = 173/220 (78%), Gaps = 1/220 (0%)
Query: 36 SHGYALARTHMHDWXXXXXXXXXXXXXYMIHPFYRFVGKDMMTDLRYPLKSNTVPVWSVP 95
S G LA +HMHDW MI PF+R++GKDMM DL +P K +T+P+W VP
Sbjct: 2 STGSKLALSHMHDWLILLLLAAMDGALNMIEPFHRYIGKDMMRDLMFPFKEDTIPMWGVP 61
Query: 96 IYAVLLPVVIFLVVYIRRRDIYDLHHAILGLLFSILVTAVLTDAIKDAVGRPRPDFFWRC 155
I ++ +P++IF+ Y RRD+YDLHHA LGL+FS L+T V+TD+IKDAVGRPRP+FF RC
Sbjct: 62 ILSIFIPILIFIAFYFARRDVYDLHHATLGLMFSSLITGVITDSIKDAVGRPRPNFFHRC 121
Query: 156 FPDGKDVYDA-LGNVVCHGDKDVIKEGHKSFPSGHTAWSFAGLGFLSLYLSGKIKVFDQK 214
FPD V+D G+V+C G K VIKEG+KSFPSGHT+WSFAGLGFLS YLSGK++VFD++
Sbjct: 122 FPDNIPVFDKDNGDVLCTGIKAVIKEGYKSFPSGHTSWSFAGLGFLSWYLSGKVRVFDRR 181
Query: 215 GHIAKLCIVVLPLLFASLVGISRVDDYWHHWQDVFAGGLL 254
GHI KLC+V+LPLL A+LVGI+RVDDYWHHW DVFAGGL+
Sbjct: 182 GHIGKLCLVLLPLLIAALVGITRVDDYWHHWTDVFAGGLI 221
>Glyma11g29390.1
Length = 252
Score = 181 bits (460), Expect = 8e-46, Method: Compositional matrix adjust.
Identities = 112/239 (46%), Positives = 145/239 (60%), Gaps = 39/239 (16%)
Query: 41 LARTHMHDWXXXXXXXXXXXXXYMIHPFYRFVGKDMMTDLRYPLKSNTVPVWSVPIYAVL 100
LA +HM+DW MI PF+ +VGK MM DL +K+
Sbjct: 3 LALSHMYDWLILLLLAAIEEALNMIEPFHCYVGKGMMKDL--IIKNEE------------ 48
Query: 101 LPVVIFLVVYIRRRDIYDLHHAILGLLFSILVTAVLTDAIKDAVGRPRPDFFWRCFPDGK 160
L +I LV+YI + ++L L+FS L+ V+TD+IKD VGRPRP+FF RCF D
Sbjct: 49 LNFLIILVLYILFCSL-----SMLCLMFSSLIIGVITDSIKDVVGRPRPNFFQRCFLDNI 103
Query: 161 DVYDAL--------------------GNVVCHGDKDVIKEGHKSFPSGHTAWSFAGLGFL 200
+Y + G+VVC K VIKEG+KSFPS HT+WSFAGLGFL
Sbjct: 104 PIYKVMSHSFDFKKIYYNLIVFHKGNGDVVCTEIKAVIKEGYKSFPSEHTSWSFAGLGFL 163
Query: 201 SLYLSGKIKVFDQKGHIAKLCIVVLPLLFASLVGISRVDDYWHHWQDVFAGGLLGLVMA 259
S YLS K++VFD++G+I KLC+V+LPLL A+LVGI+RVDDYW HW DVF GGL+G ++
Sbjct: 164 SWYLSRKVRVFDRRGNIGKLCLVLLPLLIAALVGITRVDDYWRHWTDVFVGGLIGFLLG 222
>Glyma07g08990.1
Length = 34
Score = 58.9 bits (141), Expect = 8e-09, Method: Composition-based stats.
Identities = 23/32 (71%), Positives = 27/32 (84%)
Query: 128 FSILVTAVLTDAIKDAVGRPRPDFFWRCFPDG 159
F+ L+T V TDAIK+ VG PRPDF+WRCFPDG
Sbjct: 1 FAFLITEVFTDAIKNEVGGPRPDFYWRCFPDG 32
>Glyma02g30910.1
Length = 94
Score = 53.9 bits (128), Expect = 3e-07, Method: Compositional matrix adjust.
Identities = 24/59 (40%), Positives = 33/59 (55%)
Query: 30 GSHTMTSHGYALARTHMHDWXXXXXXXXXXXXXYMIHPFYRFVGKDMMTDLRYPLKSNT 88
+HT+ S+G LAR H+ DW ++IHPF RFVG+DMM D+R +K
Sbjct: 8 SAHTIKSYGSTLARKHIRDWLILLLLIVIEIVLFVIHPFKRFVGRDMMEDIRIFVKKQC 66
>Glyma08g31880.1
Length = 269
Score = 49.3 bits (116), Expect = 6e-06, Method: Compositional matrix adjust.
Identities = 21/36 (58%), Positives = 25/36 (69%)
Query: 121 HAILGLLFSILVTAVLTDAIKDAVGRPRPDFFWRCF 156
H LLF +L+T TDAI++AVG PRPDFFW C
Sbjct: 84 HQEARLLFVVLITRAFTDAIRNAVGWPRPDFFWHCM 119