Miyakogusa Predicted Gene
- Lj3g3v2039890.1
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= Lj3g3v2039890.1 Non Chatacterized Hit- tr|B9RHV1|B9RHV1_RICCO
7-dehydrocholesterol reductase, putative OS=Ricinus
co,83.87,0,ERG4_ERG24,Ergosterol biosynthesis ERG4/ERG24; SUBFAMILY
NOT NAMED,NULL; STEROL REDUCTASE/LAMIN B RE,CUFF.43478.1
(341 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma08g23970.2 601 e-172
Glyma08g23970.1 599 e-171
Glyma08g23970.3 598 e-171
Glyma07g00460.1 90 4e-18
Glyma13g21450.1 87 3e-17
Glyma13g21450.2 83 5e-16
>Glyma08g23970.2
Length = 356
Score = 601 bits (1549), Expect = e-172, Method: Compositional matrix adjust.
Identities = 290/332 (87%), Positives = 307/332 (92%), Gaps = 1/332 (0%)
Query: 10 VHSPLVTYASMISLLTLCPPFVILLWYTMTLADGSILQTFNNLNQTGVKTFFLHSWPKPS 69
VHSPLVTYAS+ISLLTLCPPFVILLWYTMTLADGS+ +TF+ L Q G++ LH WP P+
Sbjct: 5 VHSPLVTYASVISLLTLCPPFVILLWYTMTLADGSVSETFHYLRQNGLQGL-LHIWPTPT 63
Query: 70 ATAYKIIAVYAAFEAALQLLLPGKTVHGPVSPAGNVPVYKANGVAAYLVTLITYLGLWWF 129
TA KIIAVYAAFEAALQLLLPGKTV+GP+SP G+ PVYKANG+ AY VTLITY LWWF
Sbjct: 64 PTACKIIAVYAAFEAALQLLLPGKTVYGPISPTGHRPVYKANGLQAYFVTLITYFALWWF 123
Query: 130 GIFNPTIVYDHLGEIFSALIFGSLVFCVLLYIKGHLAPSSTDSGSSGNIIIDFYWGMELY 189
GIFNPTIVY HLGEI+SALIFGS +FCV LYIKGHLAPSSTDSGSSGN+IIDFYWGMELY
Sbjct: 124 GIFNPTIVYHHLGEIYSALIFGSFLFCVFLYIKGHLAPSSTDSGSSGNLIIDFYWGMELY 183
Query: 190 PRIGKYFDIKVFTNCRFGMMSWAVLALTYCIKQYEENGKVADSMLVNTTLMLVYVTKFFW 249
PRIGK+FDIKVFTNCRFGMMSWAVLALTYCIKQYEENGKVADSMLVNT LMLVYVTKFFW
Sbjct: 184 PRIGKHFDIKVFTNCRFGMMSWAVLALTYCIKQYEENGKVADSMLVNTALMLVYVTKFFW 243
Query: 250 WEAGYWNTMDIAHDRAGFYICWGCLVWVPSVYTSPGMYLVNHPVNLGTQLALFILVAGIL 309
WEAGYW+TMDIAHDRAGFYICWGCLVWVPSVYTSPGMYLVNHPVNLG +LAL ILVAGIL
Sbjct: 244 WEAGYWSTMDIAHDRAGFYICWGCLVWVPSVYTSPGMYLVNHPVNLGIKLALSILVAGIL 303
Query: 310 CIYINYDCDRQRQEFRRTNGKCLVWGKAPSKI 341
CIYINYDCDRQRQEFRRTNGK VWGKAPSKI
Sbjct: 304 CIYINYDCDRQRQEFRRTNGKGTVWGKAPSKI 335
>Glyma08g23970.1
Length = 432
Score = 599 bits (1545), Expect = e-171, Method: Compositional matrix adjust.
Identities = 290/332 (87%), Positives = 307/332 (92%), Gaps = 1/332 (0%)
Query: 10 VHSPLVTYASMISLLTLCPPFVILLWYTMTLADGSILQTFNNLNQTGVKTFFLHSWPKPS 69
VHSPLVTYAS+ISLLTLCPPFVILLWYTMTLADGS+ +TF+ L Q G++ LH WP P+
Sbjct: 5 VHSPLVTYASVISLLTLCPPFVILLWYTMTLADGSVSETFHYLRQNGLQGL-LHIWPTPT 63
Query: 70 ATAYKIIAVYAAFEAALQLLLPGKTVHGPVSPAGNVPVYKANGVAAYLVTLITYLGLWWF 129
TA KIIAVYAAFEAALQLLLPGKTV+GP+SP G+ PVYKANG+ AY VTLITY LWWF
Sbjct: 64 PTACKIIAVYAAFEAALQLLLPGKTVYGPISPTGHRPVYKANGLQAYFVTLITYFALWWF 123
Query: 130 GIFNPTIVYDHLGEIFSALIFGSLVFCVLLYIKGHLAPSSTDSGSSGNIIIDFYWGMELY 189
GIFNPTIVY HLGEI+SALIFGS +FCV LYIKGHLAPSSTDSGSSGN+IIDFYWGMELY
Sbjct: 124 GIFNPTIVYHHLGEIYSALIFGSFLFCVFLYIKGHLAPSSTDSGSSGNLIIDFYWGMELY 183
Query: 190 PRIGKYFDIKVFTNCRFGMMSWAVLALTYCIKQYEENGKVADSMLVNTTLMLVYVTKFFW 249
PRIGK+FDIKVFTNCRFGMMSWAVLALTYCIKQYEENGKVADSMLVNT LMLVYVTKFFW
Sbjct: 184 PRIGKHFDIKVFTNCRFGMMSWAVLALTYCIKQYEENGKVADSMLVNTALMLVYVTKFFW 243
Query: 250 WEAGYWNTMDIAHDRAGFYICWGCLVWVPSVYTSPGMYLVNHPVNLGTQLALFILVAGIL 309
WEAGYW+TMDIAHDRAGFYICWGCLVWVPSVYTSPGMYLVNHPVNLG +LAL ILVAGIL
Sbjct: 244 WEAGYWSTMDIAHDRAGFYICWGCLVWVPSVYTSPGMYLVNHPVNLGIKLALSILVAGIL 303
Query: 310 CIYINYDCDRQRQEFRRTNGKCLVWGKAPSKI 341
CIYINYDCDRQRQEFRRTNGK VWGKAPSKI
Sbjct: 304 CIYINYDCDRQRQEFRRTNGKGTVWGKAPSKI 335
>Glyma08g23970.3
Length = 345
Score = 598 bits (1543), Expect = e-171, Method: Compositional matrix adjust.
Identities = 289/332 (87%), Positives = 307/332 (92%), Gaps = 1/332 (0%)
Query: 10 VHSPLVTYASMISLLTLCPPFVILLWYTMTLADGSILQTFNNLNQTGVKTFFLHSWPKPS 69
VHSPLVTYAS+ISLLTLCPPFVILLWYTMTLADGS+ +TF+ L Q G++ LH WP P+
Sbjct: 5 VHSPLVTYASVISLLTLCPPFVILLWYTMTLADGSVSETFHYLRQNGLQGL-LHIWPTPT 63
Query: 70 ATAYKIIAVYAAFEAALQLLLPGKTVHGPVSPAGNVPVYKANGVAAYLVTLITYLGLWWF 129
TA KIIAVYAAFEAALQLLLPGKTV+GP+SP G+ PVYKANG+ AY VTLITY LWWF
Sbjct: 64 PTACKIIAVYAAFEAALQLLLPGKTVYGPISPTGHRPVYKANGLQAYFVTLITYFALWWF 123
Query: 130 GIFNPTIVYDHLGEIFSALIFGSLVFCVLLYIKGHLAPSSTDSGSSGNIIIDFYWGMELY 189
GIFNPTIVY HLGEI+SALIFGS +FCV LYIKGHLAPSSTDSGSSGN+IIDFYWGMELY
Sbjct: 124 GIFNPTIVYHHLGEIYSALIFGSFLFCVFLYIKGHLAPSSTDSGSSGNLIIDFYWGMELY 183
Query: 190 PRIGKYFDIKVFTNCRFGMMSWAVLALTYCIKQYEENGKVADSMLVNTTLMLVYVTKFFW 249
PRIGK+FDIKVFTNCRFGMMSWAVLALTYCIKQYEENGKVADSMLVNT LMLVYVTKFFW
Sbjct: 184 PRIGKHFDIKVFTNCRFGMMSWAVLALTYCIKQYEENGKVADSMLVNTALMLVYVTKFFW 243
Query: 250 WEAGYWNTMDIAHDRAGFYICWGCLVWVPSVYTSPGMYLVNHPVNLGTQLALFILVAGIL 309
WEAGYW+TMDIAHDRAGFYICWGCLVWVPSVYTSPGMYLVNHPVNLG +LAL ILVAGIL
Sbjct: 244 WEAGYWSTMDIAHDRAGFYICWGCLVWVPSVYTSPGMYLVNHPVNLGIKLALSILVAGIL 303
Query: 310 CIYINYDCDRQRQEFRRTNGKCLVWGKAPSKI 341
CIYINYDCDRQRQEFRRTNGK VWGKAPSK+
Sbjct: 304 CIYINYDCDRQRQEFRRTNGKGTVWGKAPSKV 335
>Glyma07g00460.1
Length = 284
Score = 89.7 bits (221), Expect = 4e-18, Method: Compositional matrix adjust.
Identities = 40/47 (85%), Positives = 43/47 (91%)
Query: 295 LGTQLALFILVAGILCIYINYDCDRQRQEFRRTNGKCLVWGKAPSKI 341
+ ++LAL ILVAGILCIYINYDCDRQRQEFRRTNGK VWGKAPSKI
Sbjct: 125 VSSRLALSILVAGILCIYINYDCDRQRQEFRRTNGKGTVWGKAPSKI 171
>Glyma13g21450.1
Length = 374
Score = 86.7 bits (213), Expect = 3e-17, Method: Compositional matrix adjust.
Identities = 80/295 (27%), Positives = 138/295 (46%), Gaps = 15/295 (5%)
Query: 54 QTGVKTFFLHSWPKPSATAYKIIAVYAAFEAALQLLLPGKTVHGPVSPAGNVPVYKANGV 113
++ V FL PS + ++ + + A +LPGK V G G Y NG+
Sbjct: 3 ESHVDLGFLLQALTPSWNSVPLLVGFFTYLAVAGSILPGKLVPGVALLDGTRLHYCCNGL 62
Query: 114 AAYLVTLITYLGLWWFGIFNPTIVYDHLGEIFSALIFGSLVFCVLLYIKGHLAPSSTDSG 173
+ L+ + G +PT + D E+ S S + ++L+ G + S S
Sbjct: 63 LSLLLLVALLGIGAKMGFVSPTAISDRGLELLSTTFAFSFLVTLILHFSGCKSQSKGSSL 122
Query: 174 S---SGNIIIDFYWGMELYPRIGKYFDIKVFTNCRFGMMSWAVLALTYCIKQYEENGKVA 230
SGN+I D+++G++L P+ D+K F R GMM W ++ L+ +K ++ G ++
Sbjct: 123 KPHLSGNLIHDWWFGIQLNPQFMG-IDLKFFF-VRAGMMGWLLINLSILMKSIQD-GTLS 179
Query: 231 DSMLVNTTLMLVYVTKFFWWEAGYWNTMDIAHDRAGFYICWGCLVWVPSVYTSPGMYLVN 290
SM++ +Y+ +F E +T DI +R GF + +G LVW+P ++ G +L+
Sbjct: 180 QSMILYQLFCALYILDYFVHEEYMTSTWDIIAERLGFMLVFGDLVWIPFSFSIQGWWLLM 239
Query: 291 HPVNLGTQLALFILVAGILCIYINY----DCDRQRQEFRRTNGKCLVWGKAPSKI 341
+ V L +VA I Y ++Q+ F++ N K +WGK P I
Sbjct: 240 NSVELTPA----AIVANCFVFLIGYMVFRGANKQKHVFKK-NPKAPIWGKPPKVI 289
>Glyma13g21450.2
Length = 369
Score = 82.8 bits (203), Expect = 5e-16, Method: Compositional matrix adjust.
Identities = 76/295 (25%), Positives = 136/295 (46%), Gaps = 20/295 (6%)
Query: 54 QTGVKTFFLHSWPKPSATAYKIIAVYAAFEAALQLLLPGKTVHGPVSPAGNVPVYKANGV 113
++ V FL PS + ++ + + A +LPGK V G G Y NG+
Sbjct: 3 ESHVDLGFLLQALTPSWNSVPLLVGFFTYLAVAGSILPGKLVPGVALLDGTRLHYCCNGL 62
Query: 114 AAYLVTLITYLGLWWFGIFNPTIVYDHLGEIFSALIFGSLVFCVLLYIKGHLAPSSTDSG 173
+ L+ + G +PT + D E+ S S + ++L+ G + S S
Sbjct: 63 LSLLLLVALLGIGAKMGFVSPTAISDRGLELLSTTFAFSFLVTLILHFSGCKSQSKGSSL 122
Query: 174 S---SGNIIIDFYWGMELYPRIGKYFDIKVFTNCRFGMMSWAVLALTYCIKQYEENGKVA 230
SGN+I D+++G++L P+ + + + GMM W ++ L+ +K ++ G ++
Sbjct: 123 KPHLSGNLIHDWWFGIQLNPQF-------MGIDLKAGMMGWLLINLSILMKSIQD-GTLS 174
Query: 231 DSMLVNTTLMLVYVTKFFWWEAGYWNTMDIAHDRAGFYICWGCLVWVPSVYTSPGMYLVN 290
SM++ +Y+ +F E +T DI +R GF + +G LVW+P ++ G +L+
Sbjct: 175 QSMILYQLFCALYILDYFVHEEYMTSTWDIIAERLGFMLVFGDLVWIPFSFSIQGWWLLM 234
Query: 291 HPVNLGTQLALFILVAGILCIYINY----DCDRQRQEFRRTNGKCLVWGKAPSKI 341
+ V L +VA I Y ++Q+ F++ N K +WGK P I
Sbjct: 235 NSVELTPA----AIVANCFVFLIGYMVFRGANKQKHVFKK-NPKAPIWGKPPKVI 284