Miyakogusa Predicted Gene
- Lj4g3v0341090.1
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= Lj4g3v0341090.1 tr|A2IBG3|A2IBG3_VIGUN Alternative oxidase
OS=Vigna unguiculata GN=Aox2a PE=3 SV=1,79.94,0,SUBFAMILY NOT
NAMED,NULL; FAMILY NOT NAMED,NULL; coiled-coil,NULL; seg,NULL;
AOX,Alternative oxidase,CUFF.46966.1
(334 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma08g07700.1 521 e-148
Glyma08g07690.1 452 e-127
Glyma04g14800.1 433 e-121
Glyma05g24460.1 379 e-105
Glyma04g14800.2 341 6e-94
Glyma04g14800.3 299 3e-81
Glyma05g24440.1 192 3e-49
Glyma15g11950.1 77 2e-14
Glyma09g01130.1 77 2e-14
Glyma09g01130.2 68 1e-11
>Glyma08g07700.1
Length = 333
Score = 521 bits (1341), Expect = e-148, Method: Compositional matrix adjust.
Identities = 261/340 (76%), Positives = 276/340 (81%), Gaps = 13/340 (3%)
Query: 1 MKHLALSYALRRAL------NCNRHGLTAVRQLPATEVRRFLVSGENGVFSCWNRMMSSQ 54
MK AL+ +RRAL N NR G A+ A E R G NG F W R M S
Sbjct: 1 MKLTALNSTVRRALLNGRNQNGNRLGSAALMPYAAAETRLLCAGGANGWFFYWKRTMVSP 60
Query: 55 XXXXXXXXXXXXXXXSLRTEAKKNDGSVVVSSYWGISRPKITREDGTEWPWNCFMPWETY 114
E K + SVV SSYWGISRPK+ REDGTEWPWNCFMPWE+Y
Sbjct: 61 AEAKLPEK-------EKEKEKAKAEKSVVESSYWGISRPKVVREDGTEWPWNCFMPWESY 113
Query: 115 RPDLSIDLTKHHVPKNFLDKVAYRTVKLLRIPTDVFFQRRYGCRAMMLETVAAVPGMVGG 174
R ++SIDLTKHHVPKN LDKVAYRTVKLLRIPTD+FF+RRYGCRAMMLETVAAVPGMVGG
Sbjct: 114 RSNVSIDLTKHHVPKNVLDKVAYRTVKLLRIPTDLFFKRRYGCRAMMLETVAAVPGMVGG 173
Query: 175 MLLHLRSLRKFQQSGGWIKALLEEAENERMHLMTMVELVQPKWYERFLVLTVQGVFFNAF 234
MLLHLRSLRKFQQSGGWIKALLEEAENERMHLMTMVELV+PKWYER LVL VQGVFFNAF
Sbjct: 174 MLLHLRSLRKFQQSGGWIKALLEEAENERMHLMTMVELVKPKWYERLLVLAVQGVFFNAF 233
Query: 235 FVLYLLSPKVAHRVVGYLEEEAIHSYTEYLKDIESGAIENVPAPAIAIDYWRLPKDATLK 294
FVLY+LSPKVAHR+VGYLEEEAIHSYTEYLKD+ESGAIENVPAPAIAIDYWRLPKDA LK
Sbjct: 234 FVLYILSPKVAHRIVGYLEEEAIHSYTEYLKDLESGAIENVPAPAIAIDYWRLPKDARLK 293
Query: 295 DVITVIRADEAHHRDVNHFASDIHFHGKELREAPAPLGYH 334
DVITVIRADEAHHRDVNHFASDIHF GKELREAPAP+GYH
Sbjct: 294 DVITVIRADEAHHRDVNHFASDIHFQGKELREAPAPIGYH 333
>Glyma08g07690.1
Length = 326
Score = 452 bits (1163), Expect = e-127, Method: Compositional matrix adjust.
Identities = 205/266 (77%), Positives = 234/266 (87%), Gaps = 4/266 (1%)
Query: 73 TEAKKND----GSVVVSSYWGISRPKITREDGTEWPWNCFMPWETYRPDLSIDLTKHHVP 128
+E KKN+ + VV+SYWGI+RPK+ REDGTEWPWNCFMPW++Y D+SID+TKHH P
Sbjct: 61 SEEKKNEVNDTSNAVVTSYWGITRPKVRREDGTEWPWNCFMPWDSYHSDVSIDVTKHHTP 120
Query: 129 KNFLDKVAYRTVKLLRIPTDVFFQRRYGCRAMMLETVAAVPGMVGGMLLHLRSLRKFQQS 188
K+ DKVA+R VK LR+ +D++F+ RYGC AMMLET+AAVPGMVGGMLLHL+SLRKFQ S
Sbjct: 121 KSLTDKVAFRAVKFLRVLSDIYFKERYGCHAMMLETIAAVPGMVGGMLLHLKSLRKFQHS 180
Query: 189 GGWIKALLEEAENERMHLMTMVELVQPKWYERFLVLTVQGVFFNAFFVLYLLSPKVAHRV 248
GGWIKALLEEAENERMHLMTMVELV+P W+ER L+ T QGVFFNAFFV YLLSPK AHR
Sbjct: 181 GGWIKALLEEAENERMHLMTMVELVKPSWHERLLIFTAQGVFFNAFFVFYLLSPKAAHRF 240
Query: 249 VGYLEEEAIHSYTEYLKDIESGAIENVPAPAIAIDYWRLPKDATLKDVITVIRADEAHHR 308
VGYLEEEA+ SYT++L IESG +ENVPAPAIAIDYWRLPKDATLKDV+TVIRADEAHHR
Sbjct: 241 VGYLEEEAVISYTQHLNAIESGKVENVPAPAIAIDYWRLPKDATLKDVVTVIRADEAHHR 300
Query: 309 DVNHFASDIHFHGKELREAPAPLGYH 334
DVNHFASDIH GKEL+EAPAP+GYH
Sbjct: 301 DVNHFASDIHHQGKELKEAPAPIGYH 326
>Glyma04g14800.1
Length = 321
Score = 433 bits (1113), Expect = e-121, Method: Compositional matrix adjust.
Identities = 197/262 (75%), Positives = 227/262 (86%)
Query: 73 TEAKKNDGSVVVSSYWGISRPKITREDGTEWPWNCFMPWETYRPDLSIDLTKHHVPKNFL 132
+ A N V+ SYWGI KIT++DGTEW WNCF PWETY+ DLSIDL KHH P FL
Sbjct: 60 SSAGGNKEEKVIVSYWGIQPSKITKKDGTEWKWNCFRPWETYKADLSIDLEKHHAPTTFL 119
Query: 133 DKVAYRTVKLLRIPTDVFFQRRYGCRAMMLETVAAVPGMVGGMLLHLRSLRKFQQSGGWI 192
DK+A+ TVK+LR PTDVFFQRRYGCRAMMLETVAAVPGMV GMLLH +SLR+F+ SGGWI
Sbjct: 120 DKMAFWTVKVLRYPTDVFFQRRYGCRAMMLETVAAVPGMVAGMLLHCKSLRRFEHSGGWI 179
Query: 193 KALLEEAENERMHLMTMVELVQPKWYERFLVLTVQGVFFNAFFVLYLLSPKVAHRVVGYL 252
KALLEEAENERMHLMT +E+ +PKWYER LV+TVQGVFFNA+F+ YLLSPK AHR+VGYL
Sbjct: 180 KALLEEAENERMHLMTFMEVAKPKWYERALVITVQGVFFNAYFLGYLLSPKFAHRMVGYL 239
Query: 253 EEEAIHSYTEYLKDIESGAIENVPAPAIAIDYWRLPKDATLKDVITVIRADEAHHRDVNH 312
EEEAIHSYTE+LK+++ G IENVPAPAIAIDYW+LP +TL+DV+ V+RADEAHHRDVNH
Sbjct: 240 EEEAIHSYTEFLKELDKGNIENVPAPAIAIDYWQLPPGSTLRDVVMVVRADEAHHRDVNH 299
Query: 313 FASDIHFHGKELREAPAPLGYH 334
FASDIH+ G+ELREA AP+GYH
Sbjct: 300 FASDIHYQGRELREAAAPIGYH 321
>Glyma05g24460.1
Length = 194
Score = 379 bits (972), Expect = e-105, Method: Compositional matrix adjust.
Identities = 180/193 (93%), Positives = 189/193 (97%)
Query: 117 DLSIDLTKHHVPKNFLDKVAYRTVKLLRIPTDVFFQRRYGCRAMMLETVAAVPGMVGGML 176
++SIDLTKHHVPKNFLDKVAYRTVKLLRIPTD+FF+RRYGCRAMMLETVAAVPGMVGGML
Sbjct: 2 NVSIDLTKHHVPKNFLDKVAYRTVKLLRIPTDLFFKRRYGCRAMMLETVAAVPGMVGGML 61
Query: 177 LHLRSLRKFQQSGGWIKALLEEAENERMHLMTMVELVQPKWYERFLVLTVQGVFFNAFFV 236
LHLRSLRKFQ SGGWIKALLEEAENERMHLMTMVELV+PKWYER LVL VQGVFFNAFFV
Sbjct: 62 LHLRSLRKFQPSGGWIKALLEEAENERMHLMTMVELVKPKWYERLLVLAVQGVFFNAFFV 121
Query: 237 LYLLSPKVAHRVVGYLEEEAIHSYTEYLKDIESGAIENVPAPAIAIDYWRLPKDATLKDV 296
LY+LSPKVAHR+VGYLEEEAIHSYTEYLKD+ESGAIENVPAPAIAIDYWRLPKDA LKDV
Sbjct: 122 LYILSPKVAHRIVGYLEEEAIHSYTEYLKDLESGAIENVPAPAIAIDYWRLPKDAKLKDV 181
Query: 297 ITVIRADEAHHRD 309
+TVIRADEAHHRD
Sbjct: 182 VTVIRADEAHHRD 194
>Glyma04g14800.2
Length = 200
Score = 341 bits (875), Expect = 6e-94, Method: Compositional matrix adjust.
Identities = 158/200 (79%), Positives = 183/200 (91%)
Query: 135 VAYRTVKLLRIPTDVFFQRRYGCRAMMLETVAAVPGMVGGMLLHLRSLRKFQQSGGWIKA 194
+A+ TVK+LR PTDVFFQRRYGCRAMMLETVAAVPGMV GMLLH +SLR+F+ SGGWIKA
Sbjct: 1 MAFWTVKVLRYPTDVFFQRRYGCRAMMLETVAAVPGMVAGMLLHCKSLRRFEHSGGWIKA 60
Query: 195 LLEEAENERMHLMTMVELVQPKWYERFLVLTVQGVFFNAFFVLYLLSPKVAHRVVGYLEE 254
LLEEAENERMHLMT +E+ +PKWYER LV+TVQGVFFNA+F+ YLLSPK AHR+VGYLEE
Sbjct: 61 LLEEAENERMHLMTFMEVAKPKWYERALVITVQGVFFNAYFLGYLLSPKFAHRMVGYLEE 120
Query: 255 EAIHSYTEYLKDIESGAIENVPAPAIAIDYWRLPKDATLKDVITVIRADEAHHRDVNHFA 314
EAIHSYTE+LK+++ G IENVPAPAIAIDYW+LP +TL+DV+ V+RADEAHHRDVNHFA
Sbjct: 121 EAIHSYTEFLKELDKGNIENVPAPAIAIDYWQLPPGSTLRDVVMVVRADEAHHRDVNHFA 180
Query: 315 SDIHFHGKELREAPAPLGYH 334
SDIH+ G+ELREA AP+GYH
Sbjct: 181 SDIHYQGRELREAAAPIGYH 200
>Glyma04g14800.3
Length = 175
Score = 299 bits (765), Expect = 3e-81, Method: Compositional matrix adjust.
Identities = 138/175 (78%), Positives = 160/175 (91%)
Query: 160 MMLETVAAVPGMVGGMLLHLRSLRKFQQSGGWIKALLEEAENERMHLMTMVELVQPKWYE 219
MMLETVAAVPGMV GMLLH +SLR+F+ SGGWIKALLEEAENERMHLMT +E+ +PKWYE
Sbjct: 1 MMLETVAAVPGMVAGMLLHCKSLRRFEHSGGWIKALLEEAENERMHLMTFMEVAKPKWYE 60
Query: 220 RFLVLTVQGVFFNAFFVLYLLSPKVAHRVVGYLEEEAIHSYTEYLKDIESGAIENVPAPA 279
R LV+TVQGVFFNA+F+ YLLSPK AHR+VGYLEEEAIHSYTE+LK+++ G IENVPAPA
Sbjct: 61 RALVITVQGVFFNAYFLGYLLSPKFAHRMVGYLEEEAIHSYTEFLKELDKGNIENVPAPA 120
Query: 280 IAIDYWRLPKDATLKDVITVIRADEAHHRDVNHFASDIHFHGKELREAPAPLGYH 334
IAIDYW+LP +TL+DV+ V+RADEAHHRDVNHFASDIH+ G+ELREA AP+GYH
Sbjct: 121 IAIDYWQLPPGSTLRDVVMVVRADEAHHRDVNHFASDIHYQGRELREAAAPIGYH 175
>Glyma05g24440.1
Length = 121
Score = 192 bits (489), Expect = 3e-49, Method: Compositional matrix adjust.
Identities = 85/121 (70%), Positives = 102/121 (84%)
Query: 107 CFMPWETYRPDLSIDLTKHHVPKNFLDKVAYRTVKLLRIPTDVFFQRRYGCRAMMLETVA 166
C PW++Y D+SID+TKHH PK+ DKVA+R VK LR+ +D++F+ RYGC AMMLET+A
Sbjct: 1 CSQPWDSYHSDVSIDVTKHHTPKSLTDKVAFRAVKFLRVLSDMYFKERYGCHAMMLETIA 60
Query: 167 AVPGMVGGMLLHLRSLRKFQQSGGWIKALLEEAENERMHLMTMVELVQPKWYERFLVLTV 226
AV GMVGGMLLHL+SLRKFQ SGGWIK LLEEAE+ERMHLMTMVELV+P W+ER L+ T
Sbjct: 61 AVLGMVGGMLLHLKSLRKFQHSGGWIKTLLEEAESERMHLMTMVELVKPSWHERLLIFTA 120
Query: 227 Q 227
Q
Sbjct: 121 Q 121
>Glyma15g11950.1
Length = 332
Score = 77.4 bits (189), Expect = 2e-14, Method: Compositional matrix adjust.
Identities = 49/180 (27%), Positives = 86/180 (47%), Gaps = 21/180 (11%)
Query: 148 DVFFQRRYGCRAMMLETVAAVPGMVGGMLLHLRSLRKFQQSGGWIKALLEEAENERMHLM 207
D + R+ R +LET+A VP +LH+ + + ++K E+ NE HL+
Sbjct: 101 DTLYHDRHYARFFVLETIARVPYFAFMSVLHMYESFGWWRRADYLKVHFAESWNEMHHLL 160
Query: 208 TMVELVQPK-WYERFLVLTVQGVFFNAFFVLYLLSPKVAHRVVGYLEEEAIHSYTEYLKD 266
M EL W++RFL + ++ ++Y +SP++A+ +E A +Y +++K
Sbjct: 161 IMEELGGNAWWFDRFLAQHIAIFYYIMTVLMYAVSPRMAYHFSECVESHAFETYDKFIK- 219
Query: 267 IESGAIENVPAPAIAIDYW-------------------RLPKDATLKDVITVIRADEAHH 307
++ ++ +PAP +A++Y+ R PK L DV IR DEA H
Sbjct: 220 VQGDELKKMPAPEVAVNYYTGDDLYLFDEFQTSRVPNSRRPKIENLYDVFVNIRDDEAEH 279
>Glyma09g01130.1
Length = 332
Score = 77.0 bits (188), Expect = 2e-14, Method: Compositional matrix adjust.
Identities = 49/180 (27%), Positives = 86/180 (47%), Gaps = 21/180 (11%)
Query: 148 DVFFQRRYGCRAMMLETVAAVPGMVGGMLLHLRSLRKFQQSGGWIKALLEEAENERMHLM 207
D + R+ R +LET+A VP +LH+ + + ++K E+ NE HL+
Sbjct: 101 DTLYHDRHYARFFVLETIARVPYFAFMSVLHMYESFGWWRRADYLKVHFAESWNEMHHLL 160
Query: 208 TMVELVQPK-WYERFLVLTVQGVFFNAFFVLYLLSPKVAHRVVGYLEEEAIHSYTEYLKD 266
M EL W++RFL + ++ ++Y +SP++A+ +E A +Y +++K
Sbjct: 161 IMEELGGNAWWFDRFLAQHIAIFYYIMTVLMYAVSPRMAYHFSECVESHAFETYDKFIK- 219
Query: 267 IESGAIENVPAPAIAIDYW-------------------RLPKDATLKDVITVIRADEAHH 307
++ ++ +PAP +A++Y+ R PK L DV IR DEA H
Sbjct: 220 VQGDELKKMPAPEVAVNYYTGDDLYLFDEFQTSRVPNSRRPKIENLYDVFVNIRDDEAEH 279
>Glyma09g01130.2
Length = 270
Score = 68.2 bits (165), Expect = 1e-11, Method: Compositional matrix adjust.
Identities = 37/139 (26%), Positives = 74/139 (53%), Gaps = 2/139 (1%)
Query: 148 DVFFQRRYGCRAMMLETVAAVPGMVGGMLLHLRSLRKFQQSGGWIKALLEEAENERMHLM 207
D + R+ R +LET+A VP +LH+ + + ++K E+ NE HL+
Sbjct: 101 DTLYHDRHYARFFVLETIARVPYFAFMSVLHMYESFGWWRRADYLKVHFAESWNEMHHLL 160
Query: 208 TMVEL-VQPKWYERFLVLTVQGVFFNAFFVLYLLSPKVAHRVVGYLEEEAIHSYTEYLKD 266
M EL W++RFL + ++ ++Y +SP++A+ +E A +Y +++K
Sbjct: 161 IMEELGGNAWWFDRFLAQHIAIFYYIMTVLMYAVSPRMAYHFSECVESHAFETYDKFIK- 219
Query: 267 IESGAIENVPAPAIAIDYW 285
++ ++ +PAP +A++Y+
Sbjct: 220 VQGDELKKMPAPEVAVNYY 238