Miyakogusa Predicted Gene
- Lj6g3v1888050.1
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= Lj6g3v1888050.1 CUFF.60115.1
(255 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma15g10820.1 360 1e-99
Glyma13g28240.1 357 7e-99
Glyma19g34190.1 214 9e-56
Glyma02g16320.1 204 9e-53
Glyma10g03510.1 204 1e-52
Glyma10g41900.1 180 2e-45
Glyma20g25140.1 178 4e-45
Glyma03g31350.1 130 1e-30
Glyma02g16320.2 114 1e-25
Glyma03g31360.1 100 3e-21
>Glyma15g10820.1
Length = 246
Score = 360 bits (923), Expect = 1e-99, Method: Compositional matrix adjust.
Identities = 178/237 (75%), Positives = 187/237 (78%)
Query: 19 KSDDHELDIESGETLYPGLSLGENQLRWGFIRKVYGILSAQIXXXXXXXXXXXFYAPXXX 78
++ E D+ESGETLYPGLS+GENQLRWGFIRKVYGILSAQI FY P
Sbjct: 10 RAKTEEFDLESGETLYPGLSVGENQLRWGFIRKVYGILSAQIVLTTLVSVTTVFYTPIND 69
Query: 79 XXXXXXXXXXXXXXXXXXXXXXXXRYQQKHPHNYILLGLFTVSISMTVGVTCANTDGKIV 138
+YQQKHPHNYILL LFTVSIS TVGVTCANTDGKIV
Sbjct: 70 LLKGNSTLLLILLFLPFIFLIPLLKYQQKHPHNYILLALFTVSISSTVGVTCANTDGKIV 129
Query: 139 LEALILTSAVVSSLTGYAFWASKKGKDFSYLGPILFTCLFTLFLVGMMQMFFPLGPASHA 198
LEALILTSAVVSSLTGYAFWASKKGKDFS+LGP+LFT LFTL L GMMQMFFPLGP +HA
Sbjct: 130 LEALILTSAVVSSLTGYAFWASKKGKDFSFLGPVLFTSLFTLILTGMMQMFFPLGPTAHA 189
Query: 199 LYGGIGAMIFSGYIVYDTDNLIKRFTYDEYIGASVTLYLDILNLFLSILRILREANN 255
+YG IGAMIFSGYIVYDTDNLIKRFTYDEYIGASVTLYLDILNLFLSILRILREANN
Sbjct: 190 IYGAIGAMIFSGYIVYDTDNLIKRFTYDEYIGASVTLYLDILNLFLSILRILREANN 246
>Glyma13g28240.1
Length = 246
Score = 357 bits (916), Expect = 7e-99, Method: Compositional matrix adjust.
Identities = 177/237 (74%), Positives = 186/237 (78%)
Query: 19 KSDDHELDIESGETLYPGLSLGENQLRWGFIRKVYGILSAQIXXXXXXXXXXXFYAPXXX 78
++ E D+ESGETLYPGLS+GENQLRWGFIRKVYGILSAQI FY P
Sbjct: 10 RAKTEEFDLESGETLYPGLSVGENQLRWGFIRKVYGILSAQIVLTTLVSVTTVFYTPIND 69
Query: 79 XXXXXXXXXXXXXXXXXXXXXXXXRYQQKHPHNYILLGLFTVSISMTVGVTCANTDGKIV 138
+YQQKHPHNYILL LFTVSIS T+GVTCANTDGKIV
Sbjct: 70 LLKGNSTLLLILLFLPFIFLIPLLKYQQKHPHNYILLALFTVSISSTIGVTCANTDGKIV 129
Query: 139 LEALILTSAVVSSLTGYAFWASKKGKDFSYLGPILFTCLFTLFLVGMMQMFFPLGPASHA 198
LEALILTSAVVSSLTGYAFWASKKGKDFS+LGPILFT L TL L GMMQMFFPLGP +HA
Sbjct: 130 LEALILTSAVVSSLTGYAFWASKKGKDFSFLGPILFTSLITLILTGMMQMFFPLGPTAHA 189
Query: 199 LYGGIGAMIFSGYIVYDTDNLIKRFTYDEYIGASVTLYLDILNLFLSILRILREANN 255
+YG IGAMIFSGYIVYDTDNLIKRFTYDEYIGASVTLYLDILNLFLSILRILREANN
Sbjct: 190 IYGAIGAMIFSGYIVYDTDNLIKRFTYDEYIGASVTLYLDILNLFLSILRILREANN 246
>Glyma19g34190.1
Length = 243
Score = 214 bits (544), Expect = 9e-56, Method: Compositional matrix adjust.
Identities = 113/239 (47%), Positives = 144/239 (60%), Gaps = 11/239 (4%)
Query: 26 DIESG-------ETLYPGLSLGENQLRWGFIRKVYGILSAQIXXXXXXXXXXXFYAPXXX 78
D+ESG LYP + L QLRW FIRKVY IL+ Q+ F P
Sbjct: 6 DVESGGDGNANPRPLYPAM-LENPQLRWAFIRKVYTILTIQLLLTIAVASVVVFVRPIAL 64
Query: 79 XXXXX---XXXXXXXXXXXXXXXXXXXRYQQKHPHNYILLGLFTVSISMTVGVTCANTDG 135
Y QKHP NYILL +FTV+++ VG+TCA T G
Sbjct: 65 FFVSSPGGLALYIVLLIAPLITVCPLYYYHQKHPLNYILLFIFTVTLAFAVGLTCAFTSG 124
Query: 136 KIVLEALILTSAVVSSLTGYAFWASKKGKDFSYLGPILFTCLFTLFLVGMMQMFFPLGPA 195
+I+LE++ILT+ VV SLT Y FWA+K+G DF++LGP LF L L L +Q+ FPLG
Sbjct: 125 RIILESVILTTIVVVSLTLYTFWAAKRGHDFNFLGPFLFGALLVLMLFAFIQLLFPLGRI 184
Query: 196 SHALYGGIGAMIFSGYIVYDTDNLIKRFTYDEYIGASVTLYLDILNLFLSILRILREAN 254
S +YG + ++IFSGYI+YDT+NLIKR+TYD+YI ASV LYLD++NLFLS+L I R N
Sbjct: 185 STMIYGVLASIIFSGYIIYDTNNLIKRYTYDQYIWASVALYLDVINLFLSLLTIFRAVN 243
>Glyma02g16320.1
Length = 242
Score = 204 bits (518), Expect = 9e-53, Method: Compositional matrix adjust.
Identities = 107/234 (45%), Positives = 144/234 (61%), Gaps = 5/234 (2%)
Query: 26 DIESG-ETLYPGLSLGENQLRWGFIRKVYGILSAQIXXXXXXXXXXXFYAPXXXXXXXX- 83
D+ESG LYP + L +LRW FIRKVY I++ Q+ P
Sbjct: 10 DLESGSRPLYP-MMLESPELRWSFIRKVYSIIAIQLLVTIVVGAVVVTVRPISVFFATTG 68
Query: 84 --XXXXXXXXXXXXXXXXXXXRYQQKHPHNYILLGLFTVSISMTVGVTCANTDGKIVLEA 141
Y QKHP NY+LLG+FTVS+ VG++CA T K++LEA
Sbjct: 69 AGLALYIVLIFVPFITLCPLYYYSQKHPVNYLLLGVFTVSLGFVVGLSCAFTSEKVILEA 128
Query: 142 LILTSAVVSSLTGYAFWASKKGKDFSYLGPILFTCLFTLFLVGMMQMFFPLGPASHALYG 201
+ILT+ VV LT Y FWA+++G DF++LGP LF + L + ++Q+ FPLG S +YG
Sbjct: 129 VILTAVVVIGLTLYTFWAARRGHDFNFLGPFLFGAVLVLMVFALIQVLFPLGKLSVMIYG 188
Query: 202 GIGAMIFSGYIVYDTDNLIKRFTYDEYIGASVTLYLDILNLFLSILRILREANN 255
+ A+IF GYI+YDTDNLIKR++YDEYI AS++LYLDI+NLFLS+L I R A++
Sbjct: 189 CLAAIIFCGYIIYDTDNLIKRYSYDEYIWASISLYLDIINLFLSLLTIFRAADS 242
>Glyma10g03510.1
Length = 242
Score = 204 bits (518), Expect = 1e-52, Method: Compositional matrix adjust.
Identities = 106/234 (45%), Positives = 144/234 (61%), Gaps = 5/234 (2%)
Query: 26 DIESG-ETLYPGLSLGENQLRWGFIRKVYGILSAQIXXXXXXXXXXXFYAPXXXXXXXX- 83
D+ESG LYP + L +LRW FIRKVY I++ Q+ P
Sbjct: 10 DLESGSRPLYP-MMLESPELRWSFIRKVYSIIAIQLLVTIVVGAVVVTVRPISVFFATTG 68
Query: 84 --XXXXXXXXXXXXXXXXXXXRYQQKHPHNYILLGLFTVSISMTVGVTCANTDGKIVLEA 141
Y QKHP NY+LL +FTVS+ VG++CA T K++LEA
Sbjct: 69 AGLALYIVLIFVPFITLCPLYYYSQKHPVNYLLLAVFTVSLGFVVGLSCAFTSEKVILEA 128
Query: 142 LILTSAVVSSLTGYAFWASKKGKDFSYLGPILFTCLFTLFLVGMMQMFFPLGPASHALYG 201
+ILT+ VV +LT Y FWA+++G DF++LGP LF + L + ++Q+ FPLG S +YG
Sbjct: 129 VILTAVVVIALTLYTFWAARRGHDFNFLGPFLFGAVLVLMVFALIQVLFPLGKLSVMIYG 188
Query: 202 GIGAMIFSGYIVYDTDNLIKRFTYDEYIGASVTLYLDILNLFLSILRILREANN 255
+ A+IF GYI+YDTDNLIKR++YDEYI AS++LYLDI+NLFLS+L I R A++
Sbjct: 189 CLAAIIFCGYIIYDTDNLIKRYSYDEYIWASISLYLDIINLFLSLLTIFRAADS 242
>Glyma10g41900.1
Length = 252
Score = 180 bits (456), Expect = 2e-45, Method: Compositional matrix adjust.
Identities = 99/247 (40%), Positives = 139/247 (56%), Gaps = 21/247 (8%)
Query: 26 DIESG------ETLYPGLSLGENQLRWGFIRKVYGILSAQIXXXXXXXXXXXFYAPXXX- 78
DIE+G + LYP + + QLRWGFIRKVY I+S Q+ F+ P
Sbjct: 5 DIEAGLPHAQGDALYPYM-IESPQLRWGFIRKVYAIISLQLLFTAAFASFFIFFTPARNF 63
Query: 79 -------------XXXXXXXXXXXXXXXXXXXXXXXXRYQQKHPHNYILLGLFTVSISMT 125
++ +KHP N LLGL+T+ +S+T
Sbjct: 64 ARYNQYRIWVFFGAAIFSIILLIIYLVLEIIILFVLSKFYKKHPVNLFLLGLYTLCMSVT 123
Query: 126 VGVTCANTDGKIVLEALILTSAVVSSLTGYAFWASKKGKDFSYLGPILFTCLFTLFLVGM 185
VG C+ D KIVLEA LT V +SLT Y FWA K+G DFS+LGP LF + + L +
Sbjct: 124 VGFACSFVDAKIVLEAAFLTGVVTASLTIYTFWAVKRGSDFSFLGPFLFASIMVMLLFAL 183
Query: 186 MQMFFPLGPASHALYGGIGAMIFSGYIVYDTDNLIKRFTYDEYIGASVTLYLDILNLFLS 245
+Q+F+PLGP + IGA++ G+IVYDTD+LIKR+TYD+YI A++++Y D+++LF+
Sbjct: 184 IQVFYPLGPIGRMMIACIGAIVMCGFIVYDTDDLIKRYTYDDYIWAAISIYGDVISLFIY 243
Query: 246 ILRILRE 252
+L IL E
Sbjct: 244 LLTILNE 250
>Glyma20g25140.1
Length = 242
Score = 178 bits (452), Expect = 4e-45, Method: Compositional matrix adjust.
Identities = 99/228 (43%), Positives = 135/228 (59%), Gaps = 4/228 (1%)
Query: 28 ESGETLYPGLSLGENQLRWGFIRKVYGILSAQIXXXXXXXXXXXFYAPXXXXXXXXXXXX 87
E G+ LYP + + QLRWGFIRKVY I+S Q+ F+ P
Sbjct: 14 EGGDALYPYM-IESPQLRWGFIRKVYVIISLQLLFTAAFSSLFIFFTPARNFARYNQYRI 72
Query: 88 XX---XXXXXXXXXXXXXRYQQKHPHNYILLGLFTVSISMTVGVTCANTDGKIVLEALIL 144
+Y +KHP N +LLGL+T+ +S+TVG C+ D IVLEA L
Sbjct: 73 WVFIGAAILSFILLFVLSKYYKKHPVNLLLLGLYTLCMSVTVGFACSFVDATIVLEAAFL 132
Query: 145 TSAVVSSLTGYAFWASKKGKDFSYLGPILFTCLFTLFLVGMMQMFFPLGPASHALYGGIG 204
T V +SLT Y FWA K+G DFS+LGP LF L + L ++Q+F+PLGP + IG
Sbjct: 133 TGVVTASLTFYTFWAVKRGSDFSFLGPFLFASLMVMLLFALIQVFYPLGPIGRMVIACIG 192
Query: 205 AMIFSGYIVYDTDNLIKRFTYDEYIGASVTLYLDILNLFLSILRILRE 252
A++ G+IVYDTD+LIKR+TYD+YI A++ +Y DI+NLF+ +L IL +
Sbjct: 193 AIVMCGFIVYDTDDLIKRYTYDDYIWAAIAIYGDIINLFIYLLTILND 240
>Glyma03g31350.1
Length = 183
Score = 130 bits (328), Expect = 1e-30, Method: Compositional matrix adjust.
Identities = 66/119 (55%), Positives = 86/119 (72%)
Query: 104 YQQKHPHNYILLGLFTVSISMTVGVTCANTDGKIVLEALILTSAVVSSLTGYAFWASKKG 163
Y QKHP NYILL +FTV+++ VG+TC T G I+LE++ILT+ VV SLT Y FWA+K+G
Sbjct: 50 YHQKHPLNYILLFIFTVTLAFAVGLTCTFTSGGIILESVILTTIVVVSLTLYTFWAAKRG 109
Query: 164 KDFSYLGPILFTCLFTLFLVGMMQMFFPLGPASHALYGGIGAMIFSGYIVYDTDNLIKR 222
DF++LGP L L L L +Q+ PLG S +YG + ++IF GYI+YDTDNLIKR
Sbjct: 110 HDFNFLGPFLLGALLVLMLFAFIQLLLPLGRISTMIYGVLASIIFCGYILYDTDNLIKR 168
>Glyma02g16320.2
Length = 176
Score = 114 bits (285), Expect = 1e-25, Method: Compositional matrix adjust.
Identities = 64/167 (38%), Positives = 89/167 (53%), Gaps = 5/167 (2%)
Query: 26 DIESG-ETLYPGLSLGENQLRWGFIRKVYGILSAQIXXXXXXXXXXXFYAPXXXXXXXX- 83
D+ESG LYP + L +LRW FIRKVY I++ Q+ P
Sbjct: 10 DLESGSRPLYP-MMLESPELRWSFIRKVYSIIAIQLLVTIVVGAVVVTVRPISVFFATTG 68
Query: 84 --XXXXXXXXXXXXXXXXXXXRYQQKHPHNYILLGLFTVSISMTVGVTCANTDGKIVLEA 141
Y QKHP NY+LLG+FTVS+ VG++CA T K++LEA
Sbjct: 69 AGLALYIVLIFVPFITLCPLYYYSQKHPVNYLLLGVFTVSLGFVVGLSCAFTSEKVILEA 128
Query: 142 LILTSAVVSSLTGYAFWASKKGKDFSYLGPILFTCLFTLFLVGMMQM 188
+ILT+ VV LT Y FWA+++G DF++LGP LF + L + ++Q+
Sbjct: 129 VILTAVVVIGLTLYTFWAARRGHDFNFLGPFLFGAVLVLMVFALIQV 175
>Glyma03g31360.1
Length = 232
Score = 99.8 bits (247), Expect = 3e-21, Method: Compositional matrix adjust.
Identities = 58/155 (37%), Positives = 89/155 (57%), Gaps = 8/155 (5%)
Query: 105 QQKHPHNYILLGLFTVSISMTVGVTCA---NTDGKIVLEALILTSAVVSSLTGYA--FWA 159
Q +P NY+ L +FTV+ + +G+ CA I+ + + + + T A FW
Sbjct: 81 QDTNPFNYLFLCIFTVTCAFPLGLVCAYKCEVKSHILDKNEKVENHISEEKTHRALRFWV 140
Query: 160 SKKGKDFSYLGPILFTCLFTLFLVGMMQMFFPLGPASHALYGGIGAMIFSGYIVYDTDNL 219
K D + I + L + + ++QMF+P G S +YG +++F GYI+YDT+ L
Sbjct: 141 --KVCDCLWFISINLSALLAILIFCLIQMFYP-GKLSQTIYGCGASIVFCGYIIYDTERL 197
Query: 220 IKRFTYDEYIGASVTLYLDILNLFLSILRILREAN 254
IKRF+Y+E I ASV+LY DI+NLF+S+L R AN
Sbjct: 198 IKRFSYEEQIWASVSLYADIINLFVSLLTAFRAAN 232