Miyakogusa Predicted Gene
- Lj0g3v0247049.1
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= Lj0g3v0247049.1 tr|Q7X9F5|Q7X9F5_9FABA Class Ia chitinase
OS=Galega orientalis PE=2 SV=1,70.99,0,CHIT_BIND_I_1,Chitin-binding,
type 1, conserved site; CHITINASE_19_1,Glycoside hydrolase, family
19,,CUFF.16132.1
(322 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma02g04820.1 315 4e-86
Glyma16g22680.1 298 4e-81
Glyma02g04820.2 285 6e-77
Glyma19g40960.1 260 2e-69
Glyma02g01020.1 253 1e-67
Glyma01g36480.1 249 3e-66
Glyma10g27870.1 228 9e-60
Glyma16g22730.1 171 1e-42
Glyma11g13270.1 143 2e-34
Glyma18g51980.1 142 5e-34
Glyma08g29090.1 139 3e-33
Glyma12g05310.1 132 5e-31
Glyma13g42210.1 132 6e-31
Glyma09g04330.1 129 3e-30
Glyma15g15360.1 128 9e-30
Glyma11g13280.1 72 8e-13
Glyma11g08880.1 66 6e-11
Glyma01g36470.1 64 2e-10
>Glyma02g04820.1
Length = 320
Score = 315 bits (808), Expect = 4e-86, Method: Compositional matrix adjust.
Identities = 160/319 (50%), Positives = 197/319 (61%), Gaps = 11/319 (3%)
Query: 2 KMKL-AIAAVLAVSFVIGTCMGEQCGSQXXXXXXXXXXXXSKYGWCGSSSDYCSNGCQSQ 60
MKL ++ L+++F++G EQCG+Q SK+GWCG + YC GCQSQ
Sbjct: 3 NMKLCSVMLCLSLAFLLGA-TAEQCGTQAGGALCPNRLCCSKFGWCGDTDSYCGEGCQSQ 61
Query: 61 CXXXXXXXXXXXXXXXXXXXXSIVPRDVFNQMLKHRSDGGCPARGFYSYDSFISASKAFP 120
C ++ +F+QMLK+R+DG C GFY YD+FI+A+ +F
Sbjct: 62 CKSATPSTPTPTTPSSGGDISRLISSSLFDQMLKYRNDGRCSGHGFYRYDAFIAAAGSFN 121
Query: 121 SFGNTGDVATRKREMAAFLGQTSHETTGGWPSAPDGPYAWGYCFNKERNPSDYCSPNSQY 180
FG TGD TRK+E+AAFL QTSHETTGGW SAPDGPYAWGYCF E+N + YC +
Sbjct: 122 GFGTTGDDNTRKKEIAAFLAQTSHETTGGWASAPDGPYAWGYCFINEQNQATYCD-GGNW 180
Query: 181 PCAPGKQYYGRGPMQISWNYNYGQCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMTAQS 240
PCA GK+YYGRGP+Q++ NYNYGQ G+A+G SFKTA+WFWMTAQ
Sbjct: 181 PCAAGKKYYGRGPIQLTHNYNYGQAGKALGLDLINNPDLVATDATVSFKTALWFWMTAQG 240
Query: 241 PKPSCHDVITGRW--------GGDQAGYXXXXXXXXXXLECGRGQDARVQDRIGFYKRYC 292
KPS HDVITGRW G GY LECG GQD RVQDRIGFY+RYC
Sbjct: 241 NKPSSHDVITGRWTPSSADSSAGRAPGYGVITNIINGGLECGHGQDNRVQDRIGFYRRYC 300
Query: 293 DLLGVGYGDNLDCGSQRPF 311
++G+ GDNLDC +QRPF
Sbjct: 301 QMMGISPGDNLDCNNQRPF 319
>Glyma16g22680.1
Length = 308
Score = 298 bits (764), Expect = 4e-81, Method: Compositional matrix adjust.
Identities = 147/297 (49%), Positives = 183/297 (61%), Gaps = 11/297 (3%)
Query: 23 EQCGSQXXXXXXXXXXXXSKYGWCGSSSDYCSNGCQSQCXXXXXXXXXXXXXXXXXXXXS 82
+ CG+Q S+YGWCG++ +C GCQSQC +
Sbjct: 15 QNCGTQVGGVICPNGLCCSQYGWCGNTEAHCGRGCQSQCTPGSTPTPTTPSGGDIS---N 71
Query: 83 IVPRDVFNQMLKHRSDGGCPARGFYSYDSFISASKAFPSFGNTGDVATRKREMAAFLGQT 142
+ R F +MLKHR+D CP R FY+YD+FI+A+++F FG TGD+ TR+RE+AAF GQT
Sbjct: 72 TISRSQFEEMLKHRNDAACPGRNFYTYDAFIAAARSFNGFGTTGDITTRRREIAAFFGQT 131
Query: 143 SHETTGGWPSAPDGPYAWGYCFNKERNPSDYCSPNSQYPCAPGKQYYGRGPMQISWNYNY 202
SHETTGGW SAPDGPYAWGYCF ERN +DYC+ +++PCAPGK+YYGRGP+Q++ NYNY
Sbjct: 132 SHETTGGWASAPDGPYAWGYCFINERNQADYCTSGTRWPCAPGKKYYGRGPIQLTHNYNY 191
Query: 203 GQCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMTAQSPKPSCHDVITGRW--------G 254
G G + +F+TAIWFWMTAQ KPS H VI G W
Sbjct: 192 GLAGEQLNLNLLNDPDLVSRDPIVAFRTAIWFWMTAQGNKPSSHSVIIGTWNPSSADWQA 251
Query: 255 GDQAGYXXXXXXXXXXLECGRGQDARVQDRIGFYKRYCDLLGVGYGDNLDCGSQRPF 311
G GY LECGRG D+RVQ RIGFY+RYC + GV G+NLDC +QRPF
Sbjct: 252 GRVPGYGVITNIINGGLECGRGPDSRVQSRIGFYERYCQIFGVSPGNNLDCNNQRPF 308
>Glyma02g04820.2
Length = 298
Score = 285 bits (728), Expect = 6e-77, Method: Compositional matrix adjust.
Identities = 147/298 (49%), Positives = 180/298 (60%), Gaps = 11/298 (3%)
Query: 2 KMKL-AIAAVLAVSFVIGTCMGEQCGSQXXXXXXXXXXXXSKYGWCGSSSDYCSNGCQSQ 60
MKL ++ L+++F++G EQCG+Q SK+GWCG + YC GCQSQ
Sbjct: 3 NMKLCSVMLCLSLAFLLGA-TAEQCGTQAGGALCPNRLCCSKFGWCGDTDSYCGEGCQSQ 61
Query: 61 CXXXXXXXXXXXXXXXXXXXXSIVPRDVFNQMLKHRSDGGCPARGFYSYDSFISASKAFP 120
C ++ +F+QMLK+R+DG C GFY YD+FI+A+ +F
Sbjct: 62 CKSATPSTPTPTTPSSGGDISRLISSSLFDQMLKYRNDGRCSGHGFYRYDAFIAAAGSFN 121
Query: 121 SFGNTGDVATRKREMAAFLGQTSHETTGGWPSAPDGPYAWGYCFNKERNPSDYCSPNSQY 180
FG TGD TRK+E+AAFL QTSHETTGGW SAPDGPYAWGYCF E+N + YC +
Sbjct: 122 GFGTTGDDNTRKKEIAAFLAQTSHETTGGWASAPDGPYAWGYCFINEQNQATYCD-GGNW 180
Query: 181 PCAPGKQYYGRGPMQISWNYNYGQCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMTAQS 240
PCA GK+YYGRGP+Q++ NYNYGQ G+A+G SFKTA+WFWMTAQ
Sbjct: 181 PCAAGKKYYGRGPIQLTHNYNYGQAGKALGLDLINNPDLVATDATVSFKTALWFWMTAQG 240
Query: 241 PKPSCHDVITGRW--------GGDQAGYXXXXXXXXXXLECGRGQDARVQDRIGFYKR 290
KPS HDVITGRW G GY LECG GQD RVQDRIGFY+R
Sbjct: 241 NKPSSHDVITGRWTPSSADSSAGRAPGYGVITNIINGGLECGHGQDNRVQDRIGFYRR 298
>Glyma19g40960.1
Length = 272
Score = 260 bits (664), Expect = 2e-69, Method: Compositional matrix adjust.
Identities = 125/240 (52%), Positives = 158/240 (65%), Gaps = 10/240 (4%)
Query: 82 SIVPRDVFNQMLKHRSDGGCPARGFYSYDSFISASKAFPSFGNTGDVATRKREMAAFLGQ 141
S++ + ++++ H+ D CPA+ FY YD+FI ASK+FP+FG TG +ATRKRE+AAFL Q
Sbjct: 33 SLISKSLYDKFFLHKDDTACPAKDFYPYDAFIRASKSFPAFGTTGCLATRKREIAAFLAQ 92
Query: 142 TSHETTGGWPSAPDGPYAWGYCFNKERNP-SDYC-SPNSQYPCAPGKQYYGRGPMQISWN 199
SHETTGGW +APDGP+AWG CF +E +P S+YC S N+Q+PC PGK Y GRGP+Q+SWN
Sbjct: 93 ISHETTGGWATAPDGPFAWGLCFKEEISPQSNYCDSTNTQWPCFPGKSYKGRGPIQLSWN 152
Query: 200 YNYGQCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMTAQSPKPSCHDVITGRW------ 253
YNYG G+A+G +FKTA+WFWMT Q PKPSCH+V+ G +
Sbjct: 153 YNYGPAGKALGFDGLRNPEIVANNSVIAFKTAMWFWMTEQKPKPSCHNVMVGIYVPTEDD 212
Query: 254 --GGDQAGYXXXXXXXXXXLECGRGQDARVQDRIGFYKRYCDLLGVGYGDNLDCGSQRPF 311
AGY LECG DARV DRIGF++RY L V G NLDC Q+PF
Sbjct: 213 IAANRTAGYGLVTNIINGGLECGIPGDARVNDRIGFFERYTKLFNVDTGPNLDCAYQKPF 272
>Glyma02g01020.1
Length = 281
Score = 253 bits (647), Expect = 1e-67, Method: Compositional matrix adjust.
Identities = 123/238 (51%), Positives = 155/238 (65%), Gaps = 10/238 (4%)
Query: 86 RDVFNQMLKHRSDGGCPARGFYSYDSFISASKAFPSFGNTGDVATRKREMAAFLGQTSHE 145
+++F+ + H+ + CPAR FY+YDSFI+ASK FP FG TG ATRKRE+AAFL Q SHE
Sbjct: 42 KELFDSIFIHKDNNACPARNFYTYDSFINASKRFPRFGTTGSPATRKREIAAFLAQISHE 101
Query: 146 TTGGWPSAPDGPYAWGYCFNKERNP-SDYC-SPNSQYPCAPGKQYYGRGPMQISWNYNYG 203
TTGGW +APDGPYAWG CF +E +P S+YC S N+Q+PC PG+ Y GRGP+Q+SWNYNYG
Sbjct: 102 TTGGWATAPDGPYAWGLCFKEEISPQSNYCDSTNTQWPCYPGQSYKGRGPIQLSWNYNYG 161
Query: 204 QCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMTAQSPKPSCHDVITGRWGGDQA----- 258
G+A+G +F+T +WFWMT Q PKPSCH+V+ G++ QA
Sbjct: 162 PAGKALGFDGLRNPDVVSNNSLIAFQTGLWFWMTEQKPKPSCHNVMVGKYVPTQADIAAN 221
Query: 259 ---GYXXXXXXXXXXLECGRGQDARVQDRIGFYKRYCDLLGVGYGDNLDCGSQRPFGT 313
GY LECG D+RV DRI ++KRY L V G NLDC Q+ F T
Sbjct: 222 RTKGYGLVTNIINGGLECGIPDDSRVNDRIEYFKRYATLFKVDTGPNLDCAYQKSFQT 279
>Glyma01g36480.1
Length = 275
Score = 249 bits (636), Expect = 3e-66, Method: Compositional matrix adjust.
Identities = 124/241 (51%), Positives = 152/241 (63%), Gaps = 11/241 (4%)
Query: 82 SIVPRDVFNQMLKHRSDGGCPAR-GFYSYDSFISASKAFPSFGNTGDVATRKREMAAFLG 140
SI+ F Q+LKHR+D C + GFYSY++F++A++ F FG TGDV TRKRE+AAFL
Sbjct: 32 SIISASQFEQLLKHRNDQICEGKNGFYSYNAFVTAARTFDGFGTTGDVNTRKREVAAFLA 91
Query: 141 QTSHETTGG--WPSAPDGPYAWGYCFNKERNPSDYCSPNSQYPCAPGKQYYGRGPMQISW 198
QTSHETTGG WP+APDGPYAWGYCF ER+ S+ S+ PCA GK YYGRGP+Q++
Sbjct: 92 QTSHETTGGGGWPNAPDGPYAWGYCFVTERDKSNNYCEISKAPCASGKSYYGRGPLQLTH 151
Query: 199 NYNYGQCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMTAQSPKPSCHDVITGRW----- 253
NYNY G+AI SF+TAIWFWMT+Q+ KPSCHDVIT RW
Sbjct: 152 NYNYDLAGKAIHSDLINNPDLVAQDPVVSFQTAIWFWMTSQANKPSCHDVITNRWTPSSV 211
Query: 254 ---GGDQAGYXXXXXXXXXXLECGRGQDARVQDRIGFYKRYCDLLGVGYGDNLDCGSQRP 310
GY +ECG G DRIGFYK+YC++ G+ NLDC SQ+
Sbjct: 212 DMAANRAPGYGVITNIINGRIECGNGPSPASNDRIGFYKKYCEIFGLSDATNLDCSSQKS 271
Query: 311 F 311
F
Sbjct: 272 F 272
>Glyma10g27870.1
Length = 252
Score = 228 bits (580), Expect = 9e-60, Method: Compositional matrix adjust.
Identities = 112/229 (48%), Positives = 145/229 (63%), Gaps = 7/229 (3%)
Query: 86 RDVFNQMLKHRSDGGCPARGFYSYDSFISASKAFPSFGNTGDVATRKREMAAFLGQTSHE 145
+++F+ + H+ + CPAR FY+YDSFI+ASK FP FG TG TRKRE+AAFL Q SHE
Sbjct: 28 KELFDSIFIHKDNNACPARNFYTYDSFINASKRFPRFGTTGSPTTRKREIAAFLAQISHE 87
Query: 146 TTGGWPSAPDGPYAWGYCFNKERNPS-DYC-SPNSQYPCAPGKQYYGRGPMQISWNYNYG 203
TTGGW +APDGPYAWG CF +E +P YC S N+Q+PC PG+ Y GRGP+Q+SWNYNYG
Sbjct: 88 TTGGWATAPDGPYAWGLCFKEEISPQCHYCDSTNTQWPCYPGQSYKGRGPIQLSWNYNYG 147
Query: 204 QCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMTAQSPK-PSCHDVITGRWGGDQAGYXX 262
G+A+G +F+T +WFWMTA++ D+ R AGY
Sbjct: 148 PAGKALGFDGLRNPDVVSNNSLFAFQTGLWFWMTAKAKTFLPQSDIAANR----TAGYGF 203
Query: 263 XXXXXXXXLECGRGQDARVQDRIGFYKRYCDLLGVGYGDNLDCGSQRPF 311
LECG D+RV DRIG+++RY + V G NLDC +Q+ F
Sbjct: 204 VTNIINGGLECGIPDDSRVNDRIGYFQRYATMFNVDTGPNLDCANQKSF 252
>Glyma16g22730.1
Length = 309
Score = 171 bits (432), Expect = 1e-42, Method: Compositional matrix adjust.
Identities = 106/297 (35%), Positives = 139/297 (46%), Gaps = 37/297 (12%)
Query: 11 LAVSFVIGTCMGEQCGSQXXXXXXXXXXXXSKYGWCGSSSDYCSNGCQSQCXXXXXXXXX 70
L ++F + + CGSQ SK+GWCG S +C GCQSQC
Sbjct: 3 LFIAFFLLGATAQNCGSQVAGALCPNGLCCSKFGWCGESDTHCGAGCQSQCRNGSTPTPT 62
Query: 71 XXXXXXXXXXXSIVPRDVFNQMLKHRSDGGCPARGFYSYDSFISASKAFPSFGNTGDVAT 130
+I+ R F +MLKHR+D CP GFY+YD+FI+A+ +F FG TGD+ T
Sbjct: 63 PSGGNIS----NIITRSQFEEMLKHRNDPACPGHGFYTYDAFIAAASSFNGFGTTGDITT 118
Query: 131 RKREMAAFLGQTSHETTGGWPSAPDGPYAWGYCFNKERNPSDYCSPNSQYPCAPGKQYYG 190
RKRE+AAFL QTSHET+ D + N ++ +++ G ++
Sbjct: 119 RKREIAAFLAQTSHETS-------DNKISHKLTLNFLLRVANC----TRWSIRVGILFHQ 167
Query: 191 RGPMQISW------------NYNYGQCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMTA 238
R I + NYNYGQ G A+G SFKTA+WFWMT
Sbjct: 168 RTQPGILFIMAEDQSNLDYNNYNYGQAGTALGVDLLNNPDLVATNVEVSFKTALWFWMTP 227
Query: 239 QSPKPSCHDVITGRW--------GGDQAGYXXXXXXXXXXLECGRGQDARVQ--DRI 285
Q KPSCHDVITG+W G GY +EC D RV+ DR+
Sbjct: 228 QGNKPSCHDVITGKWTPSDIDKSAGLVPGYGVITNIINGRIECRYKPDTRVEKSDRV 284
>Glyma11g13270.1
Length = 235
Score = 143 bits (361), Expect = 2e-34, Method: Compositional matrix adjust.
Identities = 83/226 (36%), Positives = 115/226 (50%), Gaps = 30/226 (13%)
Query: 83 IVPRDVFNQMLKHRSDGGCPARGFYSYDSFISASKAFPSFGNTGDVATRKREMAAFLGQT 142
IV +D FN ++ ++D GC + FYS D+F++A ++ FG G+ KRE+AA
Sbjct: 37 IVTQDFFNSIIS-QADDGCAGKNFYSRDAFLNAHNSYNEFGRLGNQDDSKREVAAAFAHF 95
Query: 143 SHETTGGWPSAPDGPYAWGYCFNKERNPS--DYCSP-NSQYPCAPGKQYYGRGPMQISWN 199
+HET +C+ +E N + DYC N++YPCAP K YYGRGP+Q+SWN
Sbjct: 96 THETGH-------------FCYIEEINGASGDYCDESNTEYPCAPNKAYYGRGPIQLSWN 142
Query: 200 YNYGQCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMTAQSPKPSCHDVITGRWGGDQAG 259
+NYG G++IG SFKTA+W+WM P VI G
Sbjct: 143 FNYGPAGQSIGFDGLNAPETVANDPVVSFKTALWYWMEHVRP------VI-------NQG 189
Query: 260 YXXXXXXXXXXLECGRGQDARVQDRIGFYKRYCDLLGVGYGDNLDC 305
+ LEC + VQ R+ +Y +YC LGV GDNL C
Sbjct: 190 FGATIRAINGRLECDGANPSTVQARVNYYTQYCSQLGVSPGDNLTC 235
>Glyma18g51980.1
Length = 329
Score = 142 bits (358), Expect = 5e-34, Method: Compositional matrix adjust.
Identities = 86/248 (34%), Positives = 116/248 (46%), Gaps = 19/248 (7%)
Query: 89 FNQMLKHRSDGGCPARGFYSYDSFISASKAFPS--FGNTGDVATRKREMAAFLGQTSHET 146
F + R+ A GF+ Y SFI+A+ F FG TG+ + E+AAFLG +T
Sbjct: 78 FENLFSKRNSPVAHAVGFWDYHSFIAAAALFEPQGFGTTGNKTMQMMEIAAFLGHVGSKT 137
Query: 147 TGGWPSAPDGPYAWGYCFNKERNP-SDYCSP--NSQYPCAPGKQYYGRGPMQISWNYNYG 203
+ G+ A GP AWG C+N E +P YC YPC PG +YYGRG + I WNYNYG
Sbjct: 138 SCGYGVATGGPLAWGLCYNHEMSPMQSYCDDYFKLTYPCTPGAEYYGRGAIPIFWNYNYG 197
Query: 204 QCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMT-AQSPKPSCHDVITGRWGGDQ----- 257
G A+ +F+ AIW WMT + +PS HD G W +
Sbjct: 198 AVGEALKIDLLSHPEYIEQNATLAFQAAIWRWMTPMKKSQPSAHDAFVGNWKPSKNDTME 257
Query: 258 ---AGYXXXXXXXXXXLECGRGQDARVQDRIGFYKRYCDLLGVGY-----GDNLDCGSQR 309
G+ CG+G + + + Y+ Y DLLGVG + L C Q
Sbjct: 258 NRLPGFGTTMNILYGDGVCGQGDVDSMNNIVSHYQYYLDLLGVGREQAGPHEILTCAEQV 317
Query: 310 PFGTNSQP 317
PF +S+P
Sbjct: 318 PFNPSSKP 325
>Glyma08g29090.1
Length = 326
Score = 139 bits (351), Expect = 3e-33, Method: Compositional matrix adjust.
Identities = 86/248 (34%), Positives = 113/248 (45%), Gaps = 19/248 (7%)
Query: 89 FNQMLKHRSDGGCPARGFYSYDSFISASKAFP--SFGNTGDVATRKREMAAFLGQTSHET 146
F + R+ A GF+ Y SFI+A+ F FG TG+ + E+AAF G +T
Sbjct: 75 FENLFSKRNSPVAHAVGFWDYHSFIAAAALFEPEGFGTTGNKTMQMMEIAAFFGHVGSKT 134
Query: 147 TGGWPSAPDGPYAWGYCFNKERNP-SDYCSP--NSQYPCAPGKQYYGRGPMQISWNYNYG 203
+ G+ A GP AWG C+N E +P YC YPC PG YYGRG + I WNYNYG
Sbjct: 135 SCGYGVATGGPLAWGLCYNHEMSPMQSYCDDYFKLTYPCTPGADYYGRGAIPIFWNYNYG 194
Query: 204 QCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMT-AQSPKPSCHDVITGRWGGDQ----- 257
G A+ +F+ AIW WMT + +PS HD G W +
Sbjct: 195 AVGEALKIDLLSHPEYIEQNATLAFQAAIWRWMTPMKKSQPSAHDAFVGSWKPTKNDTME 254
Query: 258 ---AGYXXXXXXXXXXLECGRGQDARVQDRIGFYKRYCDLLGVGY-----GDNLDCGSQR 309
G+ CG+G + + + Y Y DLLGVG D L C Q
Sbjct: 255 NRVPGFGTTMNILYGDGVCGQGDVDSMNNIVSHYLYYLDLLGVGREQAGPHDILTCAEQV 314
Query: 310 PFGTNSQP 317
PF +S+P
Sbjct: 315 PFNPSSKP 322
>Glyma12g05310.1
Length = 280
Score = 132 bits (332), Expect = 5e-31, Method: Compositional matrix adjust.
Identities = 86/266 (32%), Positives = 110/266 (41%), Gaps = 32/266 (12%)
Query: 41 SKYGWCGSSSDYCSNGCQSQCXXXXXXXXXXXXXXXXXXXXSIVPRDVFNQMLKHRSDGG 100
SKYG+CGS DYC GC+ IV + FN ++ D
Sbjct: 46 SKYGYCGSGDDYCGKGCKE------GPCYGTATPNDDVSVADIVTSEFFNAIIDQAEDH- 98
Query: 101 CPARGFYSYDSFISASKAFPSFGNTGDVATRKREMAAFLGQTSHETTGGWPSAPDGPYAW 160
C + FYS D+F+ A A+ F TG V KRE+AA ++++ +
Sbjct: 99 CAGKNFYSRDAFLDALIAYDQFAKTGSVDDSKREIAAAFAHFTYQSR-----------HF 147
Query: 161 GYCFNKERNPSDYCSP-NSQYPCAPGKQYYGRGPMQISWNYNYGQCGRAIGXXXXXXXXX 219
Y E DYC N YPCA K YYGRGP+Q+SWN+NYG G G
Sbjct: 148 CYIEEIEGASKDYCDKTNRHYPCAHNKGYYGRGPIQLSWNFNYGPAGENNGFDGLNAPET 207
Query: 220 XXXXXXXSFKTAIWFWMTAQSPKPSCHDVITGRWGGDQAGYXXXXXXXXXXLECGRGQDA 279
SFKTA+W+W SP + G+ LEC
Sbjct: 208 VASDPVISFKTALWYWTQNVSPVM-------------KHGFGATIRAINGHLECDGANPE 254
Query: 280 RVQDRIGFYKRYCDLLGVGYGDNLDC 305
VQ R+ +Y YC L V GDNL C
Sbjct: 255 TVQARVNYYTEYCSQLDVAPGDNLTC 280
>Glyma13g42210.1
Length = 274
Score = 132 bits (331), Expect = 6e-31, Method: Compositional matrix adjust.
Identities = 95/310 (30%), Positives = 135/310 (43%), Gaps = 41/310 (13%)
Query: 1 MKMKLAIAAVLAVSFVIGTCMGEQCGSQXXXXXXXXXXXXSKYGWCGSSSDYCSNGC-QS 59
M K + V+AV+FV+ T + + +Q S++G+CG+ +YC GC Q
Sbjct: 1 MIGKKFLCVVVAVAFVMITKVPQNVSAQNCGCAEGLCC--SQHGYCGNGEEYCGTGCKQG 58
Query: 60 QCXXXXXXXXXXXXXXXXXXXXSIVPRDVFNQMLKHRSDGGCPARGFYSYDSFISASKAF 119
C IV F+ ++ ++D GC + FYS D+F++A ++
Sbjct: 59 PCYSSTPSTNNVNVA-------DIVTPQFFSGIID-QADSGCAGKNFYSRDAFLNALNSY 110
Query: 120 PSFGNTGDVATRKREMAAFLGQTSHETTGGWPSAPDGPYAWGYCFNKERN--PSDYCSPN 177
FG G KRE+AA +HET +C +E N DYC N
Sbjct: 111 NDFGRLGSQDDSKREIAAAFAHFTHET-------------GHFCHIEEINGASQDYCDEN 157
Query: 178 --SQYPCAPGKQYYGRGPMQISWNYNYGQCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFW 235
SQYPC + YYGRGP+Q++WN+NYG G++ SFKTA+W+W
Sbjct: 158 TISQYPCLSNRGYYGRGPIQLTWNFNYGPAGQSNDFDGLNAPETVGNDPVISFKTALWYW 217
Query: 236 MTAQSPKPSCHDVITGRWGGDQAGYXXXXXXXXXXLECGRGQDARVQDRIGFYKRYCDLL 295
M P VI G+ LEC + VQ R+ +Y YC
Sbjct: 218 MQHVRP------VI-------NQGFGATIRAINGQLECDGANPSTVQARVNYYTDYCRQF 264
Query: 296 GVGYGDNLDC 305
GV GDNL C
Sbjct: 265 GVATGDNLTC 274
>Glyma09g04330.1
Length = 317
Score = 129 bits (325), Expect = 3e-30, Method: Compositional matrix adjust.
Identities = 83/249 (33%), Positives = 113/249 (45%), Gaps = 20/249 (8%)
Query: 89 FNQMLKHRSDGGCPARGFYSYDSFISASKAFPS--FGNTGDVATRKREMAAFLGQTSHET 146
F + R+ A GF+ Y SFI+A+ + FG TG + ++E+AAF G +T
Sbjct: 64 FENLFAKRNSPVAHAVGFWDYRSFITAAALYQPHGFGTTGGKTSGQKELAAFFGHVGSKT 123
Query: 147 TGGWPSAPDGPYAWGYCFNKERNPSD-YCSP--NSQYPCAPGKQYYGRGPMQISWNYNYG 203
+ G+ A GP AWG C++KE +P YC YPC PG YYGRG + + WNYNYG
Sbjct: 124 SCGYGVATGGPLAWGLCYSKELSPDKFYCDDYYKLTYPCTPGAAYYGRGAIPLYWNYNYG 183
Query: 204 QCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMT-AQSPKPSCHDVITGRWGGDQ----- 257
+ G A+ +F+ A+W WMT + PS HDV G W +
Sbjct: 184 KAGEALKVDLLNHPEYIEQNATLAFQAALWQWMTPPEKHLPSPHDVFVGNWKPTKNDTLS 243
Query: 258 ---AGYXXXXXXXXXXLECGRGQDARVQDR-IGFYKRYCDLLGVGY-----GDNLDCGSQ 308
G+ CG+G D + I Y Y DLLGVG + L C Q
Sbjct: 244 KRVPGFGATINLLYGDQTCGQGSDNEAMNNIISHYLYYLDLLGVGREEAGPNEVLSCAEQ 303
Query: 309 RPFGTNSQP 317
F + P
Sbjct: 304 AAFKPSGSP 312
>Glyma15g15360.1
Length = 318
Score = 128 bits (321), Expect = 9e-30, Method: Compositional matrix adjust.
Identities = 82/249 (32%), Positives = 111/249 (44%), Gaps = 20/249 (8%)
Query: 89 FNQMLKHRSDGGCPARGFYSYDSFISASKAFPS--FGNTGDVATRKREMAAFLGQTSHET 146
F + R+ A GF+ Y SFI+A+ + FG TG + ++E+AAF G +T
Sbjct: 65 FENLFAKRNSPVAHAVGFWDYRSFITAAALYQPLGFGTTGGKTSGQKELAAFFGHVGSKT 124
Query: 147 TGGWPSAPDGPYAWGYCFNKERNPSD-YCSP--NSQYPCAPGKQYYGRGPMQISWNYNYG 203
+ G+ A GP AWG C+NKE +P YC YPC PG YYGRG + + WNYNYG
Sbjct: 125 SCGYGVATGGPLAWGLCYNKELSPDKFYCDDYYKLTYPCTPGAAYYGRGAIPLYWNYNYG 184
Query: 204 QCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMT-AQSPKPSCHDVITGRWGGDQ----- 257
+ G A+ +F+ A+W WM + PS HDV G W +
Sbjct: 185 KAGEALKVDLLNHPEYIEQNATLAFQAALWQWMNPPEKHLPSPHDVFVGNWKPTKNDTLS 244
Query: 258 ---AGYXXXXXXXXXXLECGRGQDARVQDR-IGFYKRYCDLLGVGY-----GDNLDCGSQ 308
G+ CG+G D + I Y Y DL+GVG + L C Q
Sbjct: 245 KRVPGFGATINLLYGDQTCGQGSDNEAMNNIISHYLYYLDLIGVGREEAGPNEVLSCAEQ 304
Query: 309 RPFGTNSQP 317
F P
Sbjct: 305 AAFKPPGSP 313
>Glyma11g13280.1
Length = 167
Score = 72.0 bits (175), Expect = 8e-13, Method: Compositional matrix adjust.
Identities = 42/122 (34%), Positives = 59/122 (48%), Gaps = 13/122 (10%)
Query: 83 IVPRDVFNQMLKHRSDGGCPARGFYSYDSFISASKAFPSFGNTGDVATRKREMAAFLGQT 142
IV + FN ++ D C + FYS D+F+ A A+ F T KRE+AA
Sbjct: 47 IVTPEFFNAIIDEAEDH-CAGKNFYSRDAFLDALIAYNHFARTASSYDSKREIAAAFAHF 105
Query: 143 SHETTGGWPSAPDGPYAWGYCFNKERNPSDYCSPNSQ-YPCAPGKQYYGRGPMQISWNYN 201
+HET + Y E +YC ++ YPCA K Y+GR P+Q+SWN+N
Sbjct: 106 THETR-----------RFCYLGEIEGASKNYCGKTTKKYPCAHDKGYHGREPIQLSWNFN 154
Query: 202 YG 203
Y
Sbjct: 155 YA 156
>Glyma11g08880.1
Length = 136
Score = 65.9 bits (159), Expect = 6e-11, Method: Compositional matrix adjust.
Identities = 47/118 (39%), Positives = 55/118 (46%), Gaps = 21/118 (17%)
Query: 182 CAPGKQYYGRG-PMQISWNYN-YGQCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMTAQ 239
C+PGK YYG G P+Q++ YN Y + GRA+G SFKTAIWFWMT Q
Sbjct: 35 CSPGKSYYGPGGPIQLTQLYNNYDEAGRALGVDLVNNPDLVGWDAVISFKTAIWFWMTPQ 94
Query: 240 -SPKPSCHDVITGRWGGDQAGYXXXXXXXXXXLECGRGQDARVQDRIGFYKRYCDLLG 296
+ KPS HDVIT G +ECG G F KR LG
Sbjct: 95 GNNKPSSHDVITNIING--------------GIECGNGPTPGST----FIKRTVTFLG 134
>Glyma01g36470.1
Length = 183
Score = 64.3 bits (155), Expect = 2e-10, Method: Compositional matrix adjust.
Identities = 63/235 (26%), Positives = 83/235 (35%), Gaps = 63/235 (26%)
Query: 82 SIVPRDVFNQMLKHRSDGGCPARGFYSYDSFISASKAFPSFGNTGDVATRKREMAAFLGQ 141
S++ +F Q+L+HR+D RG S S + + + P RE+AAFL
Sbjct: 8 SVISGSLFEQLLQHRNDIKL-VRGRDSIASMLFSPQLDP-----------LREVAAFLAL 55
Query: 142 TSHETTGGWPSAPDGPYAWGYCFNKERNPSDYCSPNSQYPCAPGKQYYGRGPMQIS---- 197
TSHETT Y + Y PM I+
Sbjct: 56 TSHETT------------------------SYYNILIIYSL----------PMHINHFKY 81
Query: 198 WNYNYGQCGRAIGXXXXXXXXXXXXXXXXSFKTAIWFWMTAQSPKPSCHDVITGRWGGDQ 257
+ NYG +F I + DV R
Sbjct: 82 YTLNYGHLTILFLLNILFIRMHNNILIGINFAIPILYGFA---------DVAANRV---- 128
Query: 258 AGYXXXXXXXXXXLECGRGQDARVQDRIGFYKRYCDLLGVGYGDNLDCGSQRPFG 312
GY +ECG G DRIG YKRYCD+ G+ YG NL+C +QRPF
Sbjct: 129 PGYGVITNIINGGIECGNGPTLGSGDRIGSYKRYCDIFGLTYGPNLNCRNQRPFA 183