Miyakogusa Predicted Gene
- Lj1g3v0492090.1
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= Lj1g3v0492090.1 Non Chatacterized Hit- tr|I1JWV0|I1JWV0_SOYBN
Uncharacterized protein OS=Glycine max GN=Gma.55508
PE,76.44,0,EXOSTOSIN (HEPARAN SULFATE
GLYCOSYLTRANSFERASE)-RELATED,NULL; Exostosin,Exostosin-like;
seg,NULL,CUFF.25980.1
(346 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma04g33600.1 479 e-135
Glyma06g20840.1 377 e-104
Glyma17g10840.1 366 e-101
Glyma05g01050.1 313 2e-85
Glyma19g29730.1 281 9e-76
Glyma03g00910.1 271 7e-73
Glyma01g07060.1 262 5e-70
Glyma02g12920.1 256 2e-68
Glyma08g10920.1 158 9e-39
Glyma05g27950.1 157 1e-38
Glyma20g02340.1 133 3e-31
Glyma07g34570.1 132 6e-31
Glyma12g02010.1 95 1e-19
Glyma12g02010.2 95 1e-19
Glyma11g11550.1 95 1e-19
Glyma20g31360.1 94 2e-19
Glyma10g36230.1 68 2e-11
>Glyma04g33600.1
Length = 340
Score = 479 bits (1232), Expect = e-135, Method: Compositional matrix adjust.
Identities = 240/331 (72%), Positives = 272/331 (82%), Gaps = 6/331 (1%)
Query: 1 MSEKTPAVLSRFMFCVMLIXXXXXXXXXXXXXXXXNHSLIPRSVLELIIVNNTSLYFMPD 60
MSEK V SRF+FCVM+I +HSLIPRS LELI+VNN SLYFMP+
Sbjct: 1 MSEKI-MVHSRFIFCVMIISMFLLSLSSIFLLQFSSHSLIPRSALELILVNNASLYFMPN 59
Query: 61 TNREQIQLPKHPSEDVRFQSLKPSESDWKVSNSSHKTSSVRQETNMASDRTRALLRVFMY 120
REQI LP PS D FQS KP ESD S+ S KT+SV Q+ NMAS TR LL+VFMY
Sbjct: 60 LKREQILLP--PSGDSNFQSQKPRESDCHASDLSQKTTSVGQQMNMASHPTRPLLKVFMY 117
Query: 121 DLPPEFHFGLLGWKGSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYWLTLDLLSSNSPKVG 180
DLPPEFHFGLLGWKGSVN+ WP+VD+ + IPRYPGGLNLQHS+EYWLTLDLLSS KVG
Sbjct: 118 DLPPEFHFGLLGWKGSVNQTWPEVDNPERIPRYPGGLNLQHSMEYWLTLDLLSS---KVG 174
Query: 181 QPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTLQDRLVKFLMGQKEWK 240
QPC IRVQ+SSQADVIFVPFFSSLSYNRHSK+ EKVS++K LQDRLV+FLMG+KEWK
Sbjct: 175 QPCTAIRVQDSSQADVIFVPFFSSLSYNRHSKLNGQEKVSLNKRLQDRLVQFLMGRKEWK 234
Query: 241 RSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNELANIKKDIIAPYRHVVRTIP 300
RSGGK+HLIVAHHPNS+LDAR +LG+AMLVLADFGRYP ELANIKKDIIAPYRH+V TIP
Sbjct: 235 RSGGKDHLIVAHHPNSLLDARRRLGAAMLVLADFGRYPVELANIKKDIIAPYRHLVGTIP 294
Query: 301 RAESASYEERSTLVYFQGAIYRKDVSFYPHT 331
RAESAS+E+R+TLVYFQGAIYRKD++++ T
Sbjct: 295 RAESASFEKRTTLVYFQGAIYRKDLNYHIET 325
>Glyma06g20840.1
Length = 415
Score = 377 bits (968), Expect = e-104, Method: Compositional matrix adjust.
Identities = 180/220 (81%), Positives = 200/220 (90%), Gaps = 3/220 (1%)
Query: 105 NMASDRTRALLRVFMYDLPPEFHFGLLGWKGSVNKKWPQVDDLKDIPRYPGGLNLQHSVE 164
NM S TR LL+VFMYDLPPEFHFGLLGWK SVN+ WP+V++ K IPRYPGGLNLQHS+E
Sbjct: 2 NMVSYPTRPLLKVFMYDLPPEFHFGLLGWKRSVNQTWPEVNNPKRIPRYPGGLNLQHSME 61
Query: 165 YWLTLDLLSSNSPKVGQPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKT 224
YWLTLDLLSS KVGQPC IRVQ+SSQADVIFVPFFSSLSYNRHSK+ EKVS++K
Sbjct: 62 YWLTLDLLSS---KVGQPCTAIRVQDSSQADVIFVPFFSSLSYNRHSKLNGEEKVSLNKM 118
Query: 225 LQDRLVKFLMGQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNELANI 284
LQDRLV+FLMGQKEWKRSGGK+HLIVAHHPNS+LDAR KLG+AMLVLADFGRYP ELANI
Sbjct: 119 LQDRLVQFLMGQKEWKRSGGKDHLIVAHHPNSLLDARRKLGAAMLVLADFGRYPTELANI 178
Query: 285 KKDIIAPYRHVVRTIPRAESASYEERSTLVYFQGAIYRKD 324
KKDIIAPYRH+V TIP+A+SAS+E+R+TLVYFQGAIYRKD
Sbjct: 179 KKDIIAPYRHLVSTIPKAKSASFEKRTTLVYFQGAIYRKD 218
>Glyma17g10840.1
Length = 435
Score = 366 bits (939), Expect = e-101, Method: Compositional matrix adjust.
Identities = 193/324 (59%), Positives = 222/324 (68%), Gaps = 54/324 (16%)
Query: 1 MSEKTPAVLSRFMFCVMLIXXXXXXXXXXXXXXXXNHSLIPRSVLELIIVNNTSLYFMPD 60
MS+K V SRF+FCV++I NHS IPRSV EL++
Sbjct: 1 MSDKN-MVPSRFIFCVIVIAVFLLVLSSFFLIHLSNHSFIPRSVSELVL----------- 48
Query: 61 TNREQIQLPKHPSEDVRFQSLKPSESDWKVSNSSHKTSSVRQETNMASDRTRALLRVFMY 120
Q ++P P T ALLRVFMY
Sbjct: 49 ----QRKIPCDP--------------------------------------TNALLRVFMY 66
Query: 121 DLPPEFHFGLLGWKGSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYWLTLDLLSSNSPKVG 180
DLPPEFHFGLL WKG+VN+ WP V++ K IP YPGGLNLQHSVEYWLTLDLLSSN +
Sbjct: 67 DLPPEFHFGLLDWKGNVNQTWPNVNNPKHIPPYPGGLNLQHSVEYWLTLDLLSSNIAENF 126
Query: 181 QPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTLQDRLVKFLMGQKEWK 240
+PC IRVQNS QADV+FVPFFSSLSYNRHSKI EKVSV++ LQ RLV+ LM ++EWK
Sbjct: 127 RPCTAIRVQNSRQADVVFVPFFSSLSYNRHSKIHGKEKVSVNRMLQQRLVQLLMEREEWK 186
Query: 241 RSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNELANIKKDIIAPYRHVVRTIP 300
RSGG++H+IVAHHPNS+L AR KLGSAMLVLADFGRYP++LANIKKDIIAPYRH+V T+P
Sbjct: 187 RSGGRDHVIVAHHPNSILRARRKLGSAMLVLADFGRYPSQLANIKKDIIAPYRHLVSTVP 246
Query: 301 RAESASYEERSTLVYFQGAIYRKD 324
RAESASYEERSTL+YFQGAIYRKD
Sbjct: 247 RAESASYEERSTLLYFQGAIYRKD 270
>Glyma05g01050.1
Length = 241
Score = 313 bits (802), Expect = 2e-85, Method: Compositional matrix adjust.
Identities = 154/210 (73%), Positives = 171/210 (81%), Gaps = 3/210 (1%)
Query: 117 VFMYDLPPEFHFGLLGWKGSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYWLTLDLLSSNS 176
VFMYDL P FHFGLL WKG+VN+ W V++ K IP YPGGLNLQHSVEYWLTLDLLSSN
Sbjct: 1 VFMYDLSPGFHFGLLDWKGNVNQTWLNVNNPKHIPPYPGGLNLQHSVEYWLTLDLLSSNI 60
Query: 177 PKVGQPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTLQDRLVKFLMGQ 236
K C IRVQNSS DV+FVPFFSSL RHSKI EKVSV+K LQ RLV+FLMG+
Sbjct: 61 AKKFWSCTAIRVQNSSHTDVVFVPFFSSL---RHSKIHGKEKVSVNKMLQQRLVQFLMGR 117
Query: 237 KEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNELANIKKDIIAPYRHVV 296
+EWKR GG +H+IV HHPNS+L AR KLGSAMLVLADFGRYP++LANI KDIIAPYRH+V
Sbjct: 118 EEWKRYGGMDHVIVEHHPNSILHARRKLGSAMLVLADFGRYPSQLANINKDIIAPYRHLV 177
Query: 297 RTIPRAESASYEERSTLVYFQGAIYRKDVS 326
T+PRA SASYEERSTL+YFQG I KD S
Sbjct: 178 STVPRAGSASYEERSTLLYFQGTISGKDAS 207
>Glyma19g29730.1
Length = 490
Score = 281 bits (718), Expect = 9e-76, Method: Compositional matrix adjust.
Identities = 143/238 (60%), Positives = 175/238 (73%), Gaps = 12/238 (5%)
Query: 112 RALLRVFMYDLPPEFHFGLLGWK--GSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYWLTL 169
+A+LRVFMYDLPPEFHFGLL WK +VN WP + P YPGGLNLQHS+EYWLTL
Sbjct: 92 KAVLRVFMYDLPPEFHFGLLDWKPEENVNNVWPDIK--TKAPHYPGGLNLQHSIEYWLTL 149
Query: 170 DLLSSNSPKVGQPC---PVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTLQ 226
DLL+S P+ P VIRV+NSS+ADVIFVPFFSSL YNR SK EK S +K LQ
Sbjct: 150 DLLASELPESEAPSNARSVIRVRNSSEADVIFVPFFSSLCYNRLSKTGPHEKRSRNKLLQ 209
Query: 227 DRLVKFLMGQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNELANIKK 286
++LVK++ Q+EWKRSGGK+H+I+AHHPNSMLDAR KL +L+DFGRYP +AN++K
Sbjct: 210 EKLVKYVTAQEEWKRSGGKDHVILAHHPNSMLDARMKLWPGTFILSDFGRYPTNIANVEK 269
Query: 287 DIIAPYRHVVRTIPRAESASYEERSTLVYFQGAIYRKDVSFYPHTCYLFNEFLLCYEK 344
D+IAPY+HVV + +S S++ R+TL+YFQGAIYRKD H Y +LL EK
Sbjct: 270 DVIAPYKHVVGSYDNDQS-SFDSRTTLLYFQGAIYRKDGGHVRHELY----YLLKNEK 322
>Glyma03g00910.1
Length = 505
Score = 271 bits (693), Expect = 7e-73, Method: Compositional matrix adjust.
Identities = 136/228 (59%), Positives = 168/228 (73%), Gaps = 9/228 (3%)
Query: 112 RALLRVFMYDLPPEFHFGLLGWK--GSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYWLTL 169
+A+LRVFMYDLPPEFHFGLL WK +VN WP + P YPGGLN QHS+EYWLTL
Sbjct: 116 KAVLRVFMYDLPPEFHFGLLDWKPEENVNSVWPDIK--TKAPHYPGGLNSQHSIEYWLTL 173
Query: 170 DLLSSNSPKV---GQPCPVIRVQNSSQADVIFVPFFSSLSYNR-HSKIREGEKVSVDKTL 225
DLL+S P+ VIRV+NSS++DV+FVPFFSSL YNR SK EK S++K L
Sbjct: 174 DLLASELPEAEAQSNARSVIRVRNSSESDVVFVPFFSSLCYNRFSSKTNPHEKRSMNKVL 233
Query: 226 QDRLVKFLMGQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNELANIK 285
Q++LVK++ Q+EWKRSGGK+H+IVAHHPNSMLDAR KL +L+DFGRYP +AN++
Sbjct: 234 QEKLVKYVTEQEEWKRSGGKDHVIVAHHPNSMLDARMKLWPGTFILSDFGRYPTNIANVE 293
Query: 286 KDIIAPYRHVVRTIPRAESASYEERSTLVYFQGAIYRKDVSFYPHTCY 333
KD+IAPY+HVV + +S S++ R TL+YFQGAIYRKD H Y
Sbjct: 294 KDVIAPYKHVVGSYDNDQS-SFDSRPTLLYFQGAIYRKDGGHVRHELY 340
>Glyma01g07060.1
Length = 485
Score = 262 bits (669), Expect = 5e-70, Method: Compositional matrix adjust.
Identities = 124/200 (62%), Positives = 159/200 (79%), Gaps = 3/200 (1%)
Query: 125 EFHFGLLGWKGSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYWLTLDLLSSNSPKVGQPCP 184
EFHFGLL WK S N WP V +IP YPGGLNLQHS+E+WLTLD+L+S P+ +
Sbjct: 104 EFHFGLLDWKPSGNSVWPDVR--TNIPGYPGGLNLQHSIEFWLTLDILASEFPQASKART 161
Query: 185 VIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTLQDRLVKFLMGQKEWKRSGG 244
VIRVQNSS+AD+IFVPFFSSLSYNR+SK + K S +K LQ++LV +LM Q+EWKRSGG
Sbjct: 162 VIRVQNSSEADIIFVPFFSSLSYNRYSKSKPHVKKSKNKILQEKLVTYLMAQEEWKRSGG 221
Query: 245 KNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNELANIKKDIIAPYRHVVRTIPRAES 304
K+HLI+AHHPNSMLDAR KL A +L+DFGRYP +AN++KD+IAPY+H++ + ++
Sbjct: 222 KDHLILAHHPNSMLDARMKLWPATFILSDFGRYPPNIANVEKDVIAPYKHLISSYVN-DN 280
Query: 305 ASYEERSTLVYFQGAIYRKD 324
++++ R TL+YFQGAIYRKD
Sbjct: 281 SNFDSRPTLLYFQGAIYRKD 300
>Glyma02g12920.1
Length = 404
Score = 256 bits (654), Expect = 2e-68, Method: Compositional matrix adjust.
Identities = 125/213 (58%), Positives = 163/213 (76%), Gaps = 3/213 (1%)
Query: 112 RALLRVFMYDLPPEFHFGLLGWKGSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYWLTLDL 171
+L+VF+YDLPPEFHFGLL K S N WP V +IP YPGGLNLQHS+E WL+LD+
Sbjct: 61 EVVLKVFLYDLPPEFHFGLLDGKPSGNSVWPDVR--TNIPGYPGGLNLQHSIELWLSLDI 118
Query: 172 LSSNSPKVGQPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTLQDRLVK 231
L+S P+ + VIRV+NSS+A++IFVPFFSSLSYNR+SK K S +K LQ++LVK
Sbjct: 119 LASEFPQASKARTVIRVRNSSEANIIFVPFFSSLSYNRYSKGSPHVKKSRNKILQEKLVK 178
Query: 232 FLMGQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNELANIKKDIIAP 291
+L Q+E KRSGG +HLI+AHHP SMLDAR KL A +L+DFGRYP +AN++KD+IAP
Sbjct: 179 YLTTQEERKRSGGNDHLILAHHPKSMLDARMKLWPATFILSDFGRYPPNIANVEKDVIAP 238
Query: 292 YRHVVRTIPRAESASYEERSTLVYFQGAIYRKD 324
Y+H++ ++++++ R TL+YFQGAIYRKD
Sbjct: 239 YKHLINFYVN-DNSNFDSRPTLLYFQGAIYRKD 270
>Glyma08g10920.1
Length = 427
Score = 158 bits (399), Expect = 9e-39, Method: Compositional matrix adjust.
Identities = 85/213 (39%), Positives = 124/213 (58%), Gaps = 12/213 (5%)
Query: 115 LRVFMYDLPPEFHFGLLGWKGSVNKKWPQVDDLKDIPRYP--GGLNLQHSVEYWLTLDLL 172
LRVFMYDLP F+ G++ + + ++D P +P GL QHSVEYW+ LL
Sbjct: 52 LRVFMYDLPRRFNVGMIDRRSASETP----VTVEDWPAWPVNWGLKKQHSVEYWMMGSLL 107
Query: 173 SSNSPKVGQPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTLQDRLVKF 232
++ G+ +RV + A FVPFFSSLS+N H + +D+ LQ L++
Sbjct: 108 NA-----GEGREAVRVSDPELAQAFFVPFFSSLSFNTHGHTMKDPATQIDRQLQVDLMEL 162
Query: 233 LMGQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNELANIKKDIIAPY 292
L K W+RSGG++H+ HPN+ R +L ++ V+ DFGRYP ++N+ KD+++PY
Sbjct: 163 LKKSKYWQRSGGRDHVFPMTHPNAFRFLRGQLNESIQVVVDFGRYPRGMSNLNKDVVSPY 222
Query: 293 RHVVRTIPRAESAS-YEERSTLVYFQGAIYRKD 324
HVV + E YE RSTL++F+G YRKD
Sbjct: 223 VHVVDSFTDDEPQDPYESRSTLLFFRGRTYRKD 255
>Glyma05g27950.1
Length = 427
Score = 157 bits (398), Expect = 1e-38, Method: Compositional matrix adjust.
Identities = 86/213 (40%), Positives = 123/213 (57%), Gaps = 12/213 (5%)
Query: 115 LRVFMYDLPPEFHFGLLGWKGSVNKKWPQVDDLKDIPRYP--GGLNLQHSVEYWLTLDLL 172
LRVFMYDLP F+ G++ + + ++D P +P GL QHSVEYW+ LL
Sbjct: 52 LRVFMYDLPRRFNVGMIDRRSAAEMP----VTVEDWPAWPVNWGLKKQHSVEYWMMGSLL 107
Query: 173 SSNSPKVGQPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTLQDRLVKF 232
+ VG V+RV + A FVPFFSSLS+N H + +D+ LQ L++
Sbjct: 108 N-----VGGGREVVRVSDPELAQAFFVPFFSSLSFNTHGHTMKDPATQIDRQLQVDLMEL 162
Query: 233 LMGQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNELANIKKDIIAPY 292
L W+RSGG++H+ HPN+ R +L ++ V+ DFGRYP ++N+ KD+++PY
Sbjct: 163 LKKSNYWQRSGGRDHVFPMTHPNAFRFLRDQLNESIQVVVDFGRYPRGMSNLNKDVVSPY 222
Query: 293 RHVVRTIPRAESAS-YEERSTLVYFQGAIYRKD 324
HVV + E YE RSTL++F+G YRKD
Sbjct: 223 VHVVDSFTDDEPQDPYESRSTLLFFRGRTYRKD 255
>Glyma20g02340.1
Length = 459
Score = 133 bits (335), Expect = 3e-31, Method: Compositional matrix adjust.
Identities = 78/224 (34%), Positives = 124/224 (55%), Gaps = 19/224 (8%)
Query: 115 LRVFMYDLPPEFHFGLL--------GWKGSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYW 166
++VF+YDLP F G++ + DD+ D +YPG QH E++
Sbjct: 60 VKVFLYDLPRRFTSGVIHHHTLARGSGGVGGSASRATPDDVADALKYPGH---QHMAEWY 116
Query: 167 LTLDLLSSNSPKVGQPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTL- 225
L DL + S + G PV+RV + +AD+ FVPFFSSLS + G ++K +
Sbjct: 117 LFADLSRAESERAGSGSPVVRVADPEEADLFFVPFFSSLSLIVNPVRPPGSNSGLEKPVY 176
Query: 226 -----QDRLVKFLMGQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNE 280
Q+ LV++L Q+ WKR+ G++H+IVA PN+M ++ +A+L+++DFGR +
Sbjct: 177 SDEENQEALVEWLEKQEYWKRNNGRDHVIVASDPNAMYRVIDRVRNAVLLVSDFGRLRPD 236
Query: 281 LANIKKDIIAPYRHVVRTIPRAESASYEERSTLVYFQGAIYRKD 324
++ KD++ PY H +RT P E+R TL++F G YRK+
Sbjct: 237 QGSLVKDVVVPYSHRIRTYP--GDVGVEDRKTLLFFMGNRYRKE 278
>Glyma07g34570.1
Length = 485
Score = 132 bits (332), Expect = 6e-31, Method: Compositional matrix adjust.
Identities = 82/222 (36%), Positives = 125/222 (56%), Gaps = 21/222 (9%)
Query: 115 LRVFMYDLPPEF------HFGLLGWKGSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYWLT 168
+ VF+YDLP F H L +G ++ P DD P+YPG QH E++L
Sbjct: 93 INVFLYDLPRRFTSDVIHHHALA--RGGASRVTP--DDDAAAPKYPGH---QHMAEWYLF 145
Query: 169 LDLLSSNSPKVGQPCPVIRVQNSSQADVIFVPFFSSLSY----NRHSKIREGEKVSV--D 222
DL + S + G PV+ V + +AD+ FVPFFSSLS R G + V D
Sbjct: 146 ADLSRAESERAGSGSPVVLVADPEEADLFFVPFFSSLSLIVNPVRPPGSNSGSEKPVYSD 205
Query: 223 KTLQDRLVKFLMGQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGRYPNELA 282
+ Q+ LV++L Q+ WKR+ G++H+IVA PN+M ++ +A+L+++DFGR +
Sbjct: 206 EENQEALVEWLEKQEYWKRNSGRDHVIVASDPNAMYRVIDRVRNAVLLVSDFGRLRPDQG 265
Query: 283 NIKKDIIAPYRHVVRTIPRAESASYEERSTLVYFQGAIYRKD 324
++ KD++ PY H +RT A E+R+TL++F G YRK+
Sbjct: 266 SLVKDVVVPYSHRIRTY--QGDAGVEDRNTLLFFMGNRYRKE 305
>Glyma12g02010.1
Length = 464
Score = 95.1 bits (235), Expect = 1e-19, Method: Compositional matrix adjust.
Identities = 66/214 (30%), Positives = 114/214 (53%), Gaps = 19/214 (8%)
Query: 115 LRVFMYDLPPEFHFGLLG-WKGSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYWLTLDLLS 173
LRV++YD+PP+F LL +K + + + R L QHS++YWL DL++
Sbjct: 104 LRVYVYDMPPKFTHDLLWLFKNTYRDTSNLTSNGSPVHR----LIEQHSIDYWLWADLIA 159
Query: 174 SNSPKVGQPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTLQDRLVKFL 233
S ++ V+RV +AD+ ++PFF+++S+ + E ++ K L +K++
Sbjct: 160 PQSERLLTS--VVRVHRQEEADLFYIPFFTTISFF----LMEKQQC---KALYREALKWI 210
Query: 234 MGQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGR----YPNELANIKKDII 289
Q WKRSGG++H++ HHP S R + +A+ +L D Y ++KD+I
Sbjct: 211 TDQPAWKRSGGRDHILPVHHPWSFKSVRRYVKNAIWLLPDMDSTGNWYKPGQVYLEKDLI 270
Query: 290 APY-RHVVRTIPRAESASYEERSTLVYFQGAIYR 322
PY +V + S + +RSTL++F+G + R
Sbjct: 271 LPYVPNVDLCDAKCLSETNPKRSTLLFFRGRLKR 304
>Glyma12g02010.2
Length = 399
Score = 95.1 bits (235), Expect = 1e-19, Method: Compositional matrix adjust.
Identities = 66/213 (30%), Positives = 112/213 (52%), Gaps = 17/213 (7%)
Query: 115 LRVFMYDLPPEFHFGLLGWKGSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYWLTLDLLSS 174
LRV++YD+PP+F LL W + +L L QHS++YWL DL++
Sbjct: 104 LRVYVYDMPPKFTHDLL-WL--FKNTYRDTSNLTSNGSPVHRLIEQHSIDYWLWADLIAP 160
Query: 175 NSPKVGQPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTLQDRLVKFLM 234
S ++ V+RV +AD+ ++PFF+++S+ + E ++ K L +K++
Sbjct: 161 QSERLLTS--VVRVHRQEEADLFYIPFFTTISFF----LMEKQQC---KALYREALKWIT 211
Query: 235 GQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGR----YPNELANIKKDIIA 290
Q WKRSGG++H++ HHP S R + +A+ +L D Y ++KD+I
Sbjct: 212 DQPAWKRSGGRDHILPVHHPWSFKSVRRYVKNAIWLLPDMDSTGNWYKPGQVYLEKDLIL 271
Query: 291 PY-RHVVRTIPRAESASYEERSTLVYFQGAIYR 322
PY +V + S + +RSTL++F+G + R
Sbjct: 272 PYVPNVDLCDAKCLSETNPKRSTLLFFRGRLKR 304
>Glyma11g11550.1
Length = 490
Score = 94.7 bits (234), Expect = 1e-19, Method: Compositional matrix adjust.
Identities = 66/213 (30%), Positives = 112/213 (52%), Gaps = 17/213 (7%)
Query: 115 LRVFMYDLPPEFHFGLLGWKGSVNKKWPQVDDLKDIPRYPGGLNLQHSVEYWLTLDLLSS 174
LRV++YD+PP+F LL W + +L L QHS++YWL DL++
Sbjct: 100 LRVYVYDMPPKFTHDLL-WL--FKNTYRDTSNLTSNGSPVHRLIEQHSIDYWLWADLIAP 156
Query: 175 NSPKVGQPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREGEKVSVDKTLQDRLVKFLM 234
S ++ V+RV +AD+ ++PFF+++S+ + E ++ K L +K++
Sbjct: 157 QSERL--LTSVVRVHRQEEADLFYIPFFTTISFF----LMEKQQC---KALYREALKWIT 207
Query: 235 GQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGR----YPNELANIKKDIIA 290
Q WKRSGG++H++ HHP S R + +A+ +L D Y ++KD+I
Sbjct: 208 DQPAWKRSGGRDHILPVHHPWSFKSVRRYVKNAIWLLPDMDSTGNWYKPGQVYLEKDLIL 267
Query: 291 PY-RHVVRTIPRAESASYEERSTLVYFQGAIYR 322
PY +V + S + +RSTL++F+G + R
Sbjct: 268 PYVPNVDLCDAKCLSETNPKRSTLLFFRGRLKR 300
>Glyma20g31360.1
Length = 481
Score = 94.0 bits (232), Expect = 2e-19, Method: Compositional matrix adjust.
Identities = 69/246 (28%), Positives = 117/246 (47%), Gaps = 39/246 (15%)
Query: 111 TRALLRVFMYDLPPEFHFGLLG--WKGSVNKKWPQVDD----------LKDIPRYP-GGL 157
+ + + V++ DLP ++ LL W + + P D IP YP L
Sbjct: 56 SSSTINVYVADLPRSLNYALLHTYWSSFSDSRLPTDADHTTPPSSLHQTAKIPPYPENPL 115
Query: 158 NLQHSVEYWLTLDLLSSNSPKVGQPCPVIRVQNSSQADVIFVPFFSSLSYNRHSKIREG- 216
Q+S EYW+T DL++ P+ RV + ADV+FVPFF++LS +G
Sbjct: 116 IKQYSAEYWITGDLMTP--PQHRATSFAKRVLDPLLADVVFVPFFATLSAEMQLGANKGA 173
Query: 217 ---EKVSVDKTLQDRLVKFLMGQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLAD 273
+ + D Q +++ + W RSGG++H+ V P +M + ++ A+L++ D
Sbjct: 174 FRKKHDNDDYKRQRQVMDAVKNTHAWNRSGGRDHVFVLTDPVAMWHVKDEIAPAVLLVVD 233
Query: 274 FGRY-----------------PNELANIKKDIIAPYRHVVRTIPRAESASYEERSTLVYF 316
FG + P+ ++ KD+I PY H+ +PR + + +ER L+YF
Sbjct: 234 FGGWYRLDSRGGSNCSESDVIPHTQVSVIKDVIVPYTHL---LPRLDLSDNKERHQLLYF 290
Query: 317 QGAIYR 322
+GA +R
Sbjct: 291 KGAKHR 296
>Glyma10g36230.1
Length = 343
Score = 67.8 bits (164), Expect = 2e-11, Method: Compositional matrix adjust.
Identities = 50/166 (30%), Positives = 84/166 (50%), Gaps = 12/166 (7%)
Query: 161 HSVEYWLTLDLLSSNSPKVGQPCPVIRVQNSSQADVIFVPFFSSLSYNRHS-KIREGEKV 219
+S EYW+T DL++ P+ RV + ADV+FVPFF++LS N+ + + + G
Sbjct: 1 YSAEYWITGDLITP--PQHRANSFTKRVLDPLLADVVFVPFFATLSANKGAFRKKHGND- 57
Query: 220 SVDKTLQDRLVKFLMGQKEWKRSGGKNHLIVAHHPNSMLDARTKLGSAMLVLADFGR--- 276
D Q ++V + + W RSGG++H+ V S ++ G
Sbjct: 58 --DYKRQRQVVDAVKSTQVWNRSGGRDHVFVLTALFGRPGGDFGGWSRGGGGSNCGESDV 115
Query: 277 YPNELANIKKDIIAPYRHVVRTIPRAESASYEERSTLVYFQGAIYR 322
P+ ++ KD+I PY H+ +PR + + + R L+YF+GA +R
Sbjct: 116 VPHTQVSVIKDVIVPYMHL---LPRLDLSENKVRHQLLYFKGAKHR 158