Miyakogusa Predicted Gene
- Lj0g3v0299729.1
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= Lj0g3v0299729.1 Non Chatacterized Hit- tr|C6T7G0|C6T7G0_SOYBN
Putative uncharacterized protein OS=Glycine max PE=2
S,76.68,0,FA_hydroxylase,Fatty acid hydroxylase; FAMILY NOT
NAMED,NULL; seg,NULL,CUFF.20133.1
(315 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma16g29790.1 403 e-112
Glyma09g24530.1 400 e-111
Glyma10g37560.1 395 e-110
Glyma20g30230.1 392 e-109
Glyma10g37560.2 362 e-100
Glyma20g30230.2 274 8e-74
Glyma12g10980.1 71 1e-12
Glyma20g05090.1 53 5e-07
>Glyma16g29790.1
Length = 314
Score = 403 bits (1035), Expect = e-112, Method: Compositional matrix adjust.
Identities = 213/313 (68%), Positives = 231/313 (73%), Gaps = 6/313 (1%)
Query: 1 MAAGLSATITVKPLFRRHHQXXXXXXXXXXXXXXXXXXXXXRCFHHXXXXXXXXXXXXXX 60
MA GLSA IT+K L R H R FHH
Sbjct: 1 MAVGLSAAITMKSLLRFHQPHLNLPKSIPTTLPFSPM----RIFHHTASPRTQKVSTFT- 55
Query: 61 VCVLMEDPKRSTPMETDAVEQGQEQRPS-PTQVVSAKLAEKLAREKSERFTYLVAAVMSS 119
VCVLM+DPK+ T ME + EQ P QV+S KLAEKLAR++SERFTYLVAAVMSS
Sbjct: 56 VCVLMQDPKQGTHMEIEPQEQPPPPPPPPAQQVLSPKLAEKLARKESERFTYLVAAVMSS 115
Query: 120 FGITSMAVLAVYYRFSWQMEGGEVSWSEMFGTFALSVGAAVGMEFWARWAHKALWHASLW 179
FGITSMAV AVY RFSWQMEGGEV WSEMFGTFALSVGAAVGMEFWARWAH+ALWHASLW
Sbjct: 116 FGITSMAVFAVYCRFSWQMEGGEVPWSEMFGTFALSVGAAVGMEFWARWAHRALWHASLW 175
Query: 180 HMHESHHKPREGPFEMNDVFAIINAVPAIALLSYGFFHKGLVPGLCFGAGLGITVFGMAY 239
HMHESHH+PREGPFE+NDVFAIINAVPAIALLSYGFF+KGLVPGLCFGAGLGITVFGMAY
Sbjct: 176 HMHESHHRPREGPFELNDVFAIINAVPAIALLSYGFFNKGLVPGLCFGAGLGITVFGMAY 235
Query: 240 MFVHDGLVHRRFPVGPIADVPYFRRVAAAHKLHHSDKFSGVPYGLFXXXXXXXXXXXXXX 299
MFVHDGLVH+RFPVGPIA+VPY RRVA+AH+LHHS+KF+GVPYGLF
Sbjct: 236 MFVHDGLVHKRFPVGPIANVPYLRRVASAHQLHHSEKFNGVPYGLFLGPKEIEEVGGLEE 295
Query: 300 XXXXINRRIRSYN 312
I+RR RSY
Sbjct: 296 LEKEISRRARSYK 308
>Glyma09g24530.1
Length = 308
Score = 400 bits (1028), Expect = e-111, Method: Compositional matrix adjust.
Identities = 209/312 (66%), Positives = 231/312 (74%), Gaps = 10/312 (3%)
Query: 1 MAAGLSATITVKPLFRRHHQXXXXXXXXXXXXXXXXXXXXXRCFHHXXXXXXXXXXXXXX 60
MAAGLSA IT+KPL R H R FHH
Sbjct: 1 MAAGLSAAITMKPLLRFHQPRLPKPIPTTLPFSPL------RIFHHTASPIPQNFSTFT- 53
Query: 61 VCVLMEDPKRSTPMETDAVEQGQEQRPSPTQVVSAKLAEKLAREKSERFTYLVAAVMSSF 120
VCVLM+DPK+ T ME ++ + P QV+S KLAEKLAR++SE FTYL+AAVMSSF
Sbjct: 54 VCVLMQDPKQGTQME---IQAQEPPPSPPQQVLSQKLAEKLARKESESFTYLIAAVMSSF 110
Query: 121 GITSMAVLAVYYRFSWQMEGGEVSWSEMFGTFALSVGAAVGMEFWARWAHKALWHASLWH 180
GITSMAV AVYYRF+WQMEGGEV SE+FGTFALSVGAAVGMEFWARWAH+ALWHASLWH
Sbjct: 111 GITSMAVFAVYYRFAWQMEGGEVPLSEIFGTFALSVGAAVGMEFWARWAHRALWHASLWH 170
Query: 181 MHESHHKPREGPFEMNDVFAIINAVPAIALLSYGFFHKGLVPGLCFGAGLGITVFGMAYM 240
MHESHH+PREGPFE+NDVFAIINAVPAIALLSYGFF+KGLVPGLCFGAGLGITVFGMAYM
Sbjct: 171 MHESHHRPREGPFELNDVFAIINAVPAIALLSYGFFNKGLVPGLCFGAGLGITVFGMAYM 230
Query: 241 FVHDGLVHRRFPVGPIADVPYFRRVAAAHKLHHSDKFSGVPYGLFXXXXXXXXXXXXXXX 300
FVHDGLVH+RFPVGPIA+VPY RRVA+AH+LHHS+KF GVPYGLF
Sbjct: 231 FVHDGLVHKRFPVGPIANVPYLRRVASAHQLHHSEKFDGVPYGLFMGPKEVEEVGGLEEL 290
Query: 301 XXXINRRIRSYN 312
I+RR RSY
Sbjct: 291 EKEISRRARSYK 302
>Glyma10g37560.1
Length = 301
Score = 395 bits (1016), Expect = e-110, Method: Compositional matrix adjust.
Identities = 200/271 (73%), Positives = 213/271 (78%), Gaps = 9/271 (3%)
Query: 42 RCFHHXXXXXXXXXXXXX--XVCVLMEDPKRSTPMETDAVEQGQEQRPSPTQVVSAKLAE 99
RCFHH VCVL ED K E VEQ QEQ Q VSA +AE
Sbjct: 36 RCFHHSTILRVRPRRRMSGFTVCVLTEDSK-----EIKTVEQEQEQ--VIPQAVSAGVAE 88
Query: 100 KLAREKSERFTYLVAAVMSSFGITSMAVLAVYYRFSWQMEGGEVSWSEMFGTFALSVGAA 159
KLAR+KS+RFTYLVAAVMSSFGITSMAV AVYYRFSWQMEGG+V WSEM GTF+LSVGAA
Sbjct: 89 KLARKKSQRFTYLVAAVMSSFGITSMAVFAVYYRFSWQMEGGDVPWSEMLGTFSLSVGAA 148
Query: 160 VGMEFWARWAHKALWHASLWHMHESHHKPREGPFEMNDVFAIINAVPAIALLSYGFFHKG 219
V MEFWARWAH+ALWHASLWHMHESHH+PREGPFE+NDVFAIINAVPAIALLSYG FHKG
Sbjct: 149 VAMEFWARWAHRALWHASLWHMHESHHRPREGPFELNDVFAIINAVPAIALLSYGIFHKG 208
Query: 220 LVPGLCFGAGLGITVFGMAYMFVHDGLVHRRFPVGPIADVPYFRRVAAAHKLHHSDKFSG 279
LVPGLCFGAGLGITVFGMAYMFVHDGLVH+RFPVGPIA+VPYFRRVAAAH+LHHSDKF+G
Sbjct: 209 LVPGLCFGAGLGITVFGMAYMFVHDGLVHKRFPVGPIANVPYFRRVAAAHQLHHSDKFNG 268
Query: 280 VPYGLFXXXXXXXXXXXXXXXXXXINRRIRS 310
PYGLF I+RRIRS
Sbjct: 269 APYGLFLGPKEVEEVGGLEELEKEISRRIRS 299
>Glyma20g30230.1
Length = 301
Score = 392 bits (1007), Expect = e-109, Method: Compositional matrix adjust.
Identities = 193/250 (77%), Positives = 212/250 (84%), Gaps = 8/250 (3%)
Query: 61 VCVLMEDPKRSTPMETDAVEQGQEQRPSPTQVVSAKLAEKLAREKSERFTYLVAAVMSSF 120
VCVL EDPK+ E QE++ +P QVVSA++AEKLAR+KS+RFTYLVAAVMSSF
Sbjct: 58 VCVLTEDPKQIKKDE-------QEEQVNP-QVVSARVAEKLARKKSQRFTYLVAAVMSSF 109
Query: 121 GITSMAVLAVYYRFSWQMEGGEVSWSEMFGTFALSVGAAVGMEFWARWAHKALWHASLWH 180
GITSMAV AVYYRFSWQMEGG+V WSEM GTF+LSVGAAV ME WARWAH+ALWHASLWH
Sbjct: 110 GITSMAVFAVYYRFSWQMEGGDVPWSEMLGTFSLSVGAAVAMELWARWAHRALWHASLWH 169
Query: 181 MHESHHKPREGPFEMNDVFAIINAVPAIALLSYGFFHKGLVPGLCFGAGLGITVFGMAYM 240
MHESHH+PREGPFE+NDVFAIINAVPAI LLSYGFFHKGLVPGLCFGAGLGITVFGMAYM
Sbjct: 170 MHESHHRPREGPFELNDVFAIINAVPAIVLLSYGFFHKGLVPGLCFGAGLGITVFGMAYM 229
Query: 241 FVHDGLVHRRFPVGPIADVPYFRRVAAAHKLHHSDKFSGVPYGLFXXXXXXXXXXXXXXX 300
FVHDGLVH+RFPVGPIA+VPYFRRVAAAH+LHHSDKF+GVPYGLF
Sbjct: 230 FVHDGLVHKRFPVGPIANVPYFRRVAAAHQLHHSDKFNGVPYGLFLGPKEVEEVGGLEEL 289
Query: 301 XXXINRRIRS 310
I+RR+RS
Sbjct: 290 EKEISRRMRS 299
>Glyma10g37560.2
Length = 267
Score = 362 bits (930), Expect = e-100, Method: Compositional matrix adjust.
Identities = 181/232 (78%), Positives = 193/232 (83%), Gaps = 9/232 (3%)
Query: 42 RCFHHXXXXXXXXXXXXX--XVCVLMEDPKRSTPMETDAVEQGQEQRPSPTQVVSAKLAE 99
RCFHH VCVL ED K E VEQ QEQ Q VSA +AE
Sbjct: 36 RCFHHSTILRVRPRRRMSGFTVCVLTEDSK-----EIKTVEQEQEQ--VIPQAVSAGVAE 88
Query: 100 KLAREKSERFTYLVAAVMSSFGITSMAVLAVYYRFSWQMEGGEVSWSEMFGTFALSVGAA 159
KLAR+KS+RFTYLVAAVMSSFGITSMAV AVYYRFSWQMEGG+V WSEM GTF+LSVGAA
Sbjct: 89 KLARKKSQRFTYLVAAVMSSFGITSMAVFAVYYRFSWQMEGGDVPWSEMLGTFSLSVGAA 148
Query: 160 VGMEFWARWAHKALWHASLWHMHESHHKPREGPFEMNDVFAIINAVPAIALLSYGFFHKG 219
V MEFWARWAH+ALWHASLWHMHESHH+PREGPFE+NDVFAIINAVPAIALLSYG FHKG
Sbjct: 149 VAMEFWARWAHRALWHASLWHMHESHHRPREGPFELNDVFAIINAVPAIALLSYGIFHKG 208
Query: 220 LVPGLCFGAGLGITVFGMAYMFVHDGLVHRRFPVGPIADVPYFRRVAAAHKL 271
LVPGLCFGAGLGITVFGMAYMFVHDGLVH+RFPVGPIA+VPYFRRVAAAH++
Sbjct: 209 LVPGLCFGAGLGITVFGMAYMFVHDGLVHKRFPVGPIANVPYFRRVAAAHQV 260
>Glyma20g30230.2
Length = 238
Score = 274 bits (701), Expect = 8e-74, Method: Compositional matrix adjust.
Identities = 135/168 (80%), Positives = 148/168 (88%), Gaps = 8/168 (4%)
Query: 61 VCVLMEDPKRSTPMETDAVEQGQEQRPSPTQVVSAKLAEKLAREKSERFTYLVAAVMSSF 120
VCVL EDPK+ E QE++ +P QVVSA++AEKLAR+KS+RFTYLVAAVMSSF
Sbjct: 58 VCVLTEDPKQIKKDE-------QEEQVNP-QVVSARVAEKLARKKSQRFTYLVAAVMSSF 109
Query: 121 GITSMAVLAVYYRFSWQMEGGEVSWSEMFGTFALSVGAAVGMEFWARWAHKALWHASLWH 180
GITSMAV AVYYRFSWQMEGG+V WSEM GTF+LSVGAAV ME WARWAH+ALWHASLWH
Sbjct: 110 GITSMAVFAVYYRFSWQMEGGDVPWSEMLGTFSLSVGAAVAMELWARWAHRALWHASLWH 169
Query: 181 MHESHHKPREGPFEMNDVFAIINAVPAIALLSYGFFHKGLVPGLCFGA 228
MHESHH+PREGPFE+NDVFAIINAVPAI LLSYGFFHKGLVPGLCFGA
Sbjct: 170 MHESHHRPREGPFELNDVFAIINAVPAIVLLSYGFFHKGLVPGLCFGA 217
>Glyma12g10980.1
Length = 48
Score = 71.2 bits (173), Expect = 1e-12, Method: Compositional matrix adjust.
Identities = 36/53 (67%), Positives = 38/53 (71%), Gaps = 6/53 (11%)
Query: 125 MAVLAVYYRFSWQMEGGEVSWSEMFGTFALSVGAAVGMEFWARWAHKALWHAS 177
MAV VYYRF WQME EM G F LSVG A+ MEFWARWAH+ALWHAS
Sbjct: 1 MAVFIVYYRFLWQME------YEMLGIFFLSVGVAMAMEFWARWAHRALWHAS 47
>Glyma20g05090.1
Length = 39
Score = 52.8 bits (125), Expect = 5e-07, Method: Compositional matrix adjust.
Identities = 30/48 (62%), Positives = 32/48 (66%), Gaps = 12/48 (25%)
Query: 130 VYYRFSWQMEGGEVSWSEMFGTFALSVGAAVGMEFWARWAHKALWHAS 177
VYYRF WQME SEM TF+LSVGA ARWAH+ALWHAS
Sbjct: 3 VYYRFPWQME------SEMLCTFSLSVGAI------ARWAHRALWHAS 38