Detail for ZS11_A03G10140.t1 |
| Genome: | |
| ZS11: | ZS11_A03G10140.t1 |
| ZS11_v0: | BnaA03T0091200ZS |
| WE: | WE_A03G10530.t1 |
| WE_v0: | BnaC02T0098300WE |
| Darmor: | A03p10350.1_BnaDAR |
| BH: | BnaA03T101900BH |
| Quinta: | BnaA03T0088400QU |
| ZS2: | BnaA03T092800ZS2 |
| SW: | BnaA03T104200SW |
| Express61: | A03p009200.1_BnaEXP |
| Xiaoyun: | BnaA03G0094800XY |
| P202: | BnaA03G008090P202.1 |
| BL: | BnaA03T101900BH |
| TA: | BnaA03T075600TA |
| Da-Ae: | Not available |
| RB: | BnaA03T094800RB |
| No2127: | BnaA03T0093600NO |
| P130: | BnaA03G008220P130.1 |
| Length: | 117 |
| KOG ID: | KOG1151 |
| KOG E-value: | 1.910000e-60 |
| KOG Score: | 199.0 |
| KOG Annotation: | Signal transduction mechanisms |
| Biological Process: | GO:0010258(NADH dehydrogenase complex (plastoquinone) assembly) |
| Cellular Component: | - |
| Molecular Function: | - |
| KEGG Ortholog: | - |
| NR Protein: | XP_013731327.1 |
| NR E-value: | 7.300000e-59 |
| NR Score: | 231.5 |
| NR Annotation: | XP_013731327.1 uncharacterized protein BNAA03G08160D [Brassica napus] |
| SwissProt Protein: | - |
| SwissProt E-value: | Not available |
| SwissProt Score: | Not available |
| SwissProt Annotation: | - |
ATGGCTTCATCCTTTGCTTCTTCAGCTAGATTCTCCAAGACGCAGTCAGGGGTATGTTACAGTGTGTCCT TCACTCCACGAGTCACCGTGAGATGCTGTGAAACCGCGAAGGAGCCTCCAAGACCAAAATCTAAGCTCCA AGTCGGATCACCAATCATCATCGTGGAAGCCCCTAAAGTGATAAAAACAGCCGCTTCTATGCCTTGTCTA AGGGCTAACTCCGGCTTGGTCAAGCCTGGCGATGTTGGAAGAATCGTGTCGAGAAAACCAAAGGACTTGT GGGCAGTTCGACTTTCCATTGGAACTTATCTTTTAGATGGTAAATATTTCAAAGCTTTAGAGCTTGAAGA GTGA
ATGGCTTCATCCTTTGCTTCTTCAGCTAGATTCTCCAAGACGCAGTCAGGGGTATGTTACAGTGTGTCCT TCACTCCACGAGTCACCGTGAGATGCTGTGAAACCGCGAAGGAGCCTCCAAGACCAAAATCTAAGCTCCA AGTCGGATCACCAATCATCATCGTGGAAGCCCCTAAAGTGATAAAAACAGCCGCTTCTATGCCTTGTCTA AGGGCTAACTCCGGCTTGGTCAAGCCTGGCGATGTTGGAAGAATCGTGTCGAGAAAACCAAAGGACTTGT GGGCAGTTCGACTTTCCATTGGAACTTATCTTTTAGATGGTAAATATTTCAAAGCTTTAGAGCTTGAAGA GTGA
GTCTCCTACTACTTCTACATCCATTTTCCAGTTAAATTTTAGGACAAAACTCATACTAAT CATCGTATTCATACAAAAGCATATCTTCTTGGTAATTTAAGACAACTAGACTTGTGTTCC TTAACCATTGTTTTTTTTTTAATTATTGCAGAATCGTGTCGAGAAAACCAAAGGACTTGT GGGCAGTTCGACTTTCCATTGGAACTTATCTTTTAGATGGTAAATATTTCAAAGCTTTAG AGCTTGAAGAGTGAAGTAATGCCACGTCAATTTAACGTTGTATATTTTTAATATAGATAC TTGAATATTTAATATATATTTCTTACCAAGTCTTGATTAAAGCTATCAAAATTATTTAAA ATATCATTTTATAGAATTTTTTCTTAACTAACTTTCAACATTGGCGCCAATCAAACACTA AACGAAATCTCAAAGCTGTTTATTCGCCTTTGTGGTCAACCCGAATCCAAACGGGTACAA CGGGTCATAATGCGGGTCACCAACGTTCATAGGCAACTGATCCACTGTCCTGAACCACGT CCTAGCTAGCTTCCCGGTGAATCCATAATCTCCGAACAAAACATCAGCCACTCCCTGCCC TTCCGTTCCTGGAAGCCACGCCGCAACCAGAGCGTCGATCTCACTCACGTATGGCTGCAT CATCACCGGACGTCCGGAGATAACCACCACCACGCATTTCACCAGCCCGCACACGTTCTC CATTATTCTCGGACCCGGCTCGGCTATGGTTAAGTTCGTGCTGTCTCCGTATCCCTCAGC GTACGGTGTCTCTCCTATGACCACGATCGCGTAATCAAAGTGGCTTGAGTTGACGAAGCT GGTATCTGGATTCTCGTTGTAGACGACTTGCGTCGTTGGATCCACCGTGTTCTTCACTGC GGTGAGGATCGTTGTACCTGCAAAAGTCAATATTAGATTAGTAACGTTCTGTAATGATCT TAGCATGTCTGAGAAGCACTAGAAAGGTCATAGCTTCTGTTATAAGGGATGCAAGAAGCT AATGCGGAAAACAGCATAAATAAATGACACAGAGATATTTAATTTTAGAAAGCTATTTCA GATTTTAGAGTATAATTAGAGACAAAAGAACATAAGATAtatatatatatatatATATTT ATGCCACATATCAAAATTTTTTATTTTCTAAATGATGATTTAAACAAATGAAGAAAGGAT GATTCATTTGAAGGTGTGTGTTGTGTATACCTATGGTAAGATTGTTGCTATTGAGGCCTT GCCAAGTGATTGTCCAGCCTCCACATTGGTATCCCAAGTTATCAGCGTGCGTTCCGGCGA CAAGGATCTTTTTGGCTTTCTTTGGGAGAGGAAGCAATGGCTCATCTGCATTTTCACCAT TCTTTAACAGCACCAGAGATTTCCTCACTGCTTCCCTTGCTAGCTCCCTGTGTTCCTGTT ACACGGACCAGAGTTTGAGTTGCATTCTCTATCTTAGGAACTCATGTTTTGTCTTTATCT TGAGATTTTACAGACCTTACAGCCGAGCTTGTTGGCCAAGCTATGATCAGCCATGGGATC CTCAAAGAGCCCCATTGTGAATTTAACTCTCAATATTCTCTCCACAGCTTCGTTGATTCT GCTCATTAGGATGTGTTTTCTCTTCACCTGACTGGTTAAGTCGTCTATTAACTCGGTCAA GTTTGATGAACCCATGATCTGCATCACAAGACATTTAATCATATCAAACTATGAAGTGTG TTTTATGTCTTTAAAATAGCAGAACAGTTTATGAGACTGACCATATCGATTCCAGCAGTG ATAGCAGCATAAACAGAATGTGAATAGTTAGCATGAATAGGTGTAGTGATCCAATCAACA CCTAGAAAATCTGAGATGACAATGCCCTGCAAAAATATTTAAAAACCATTTCATATTTTA TCTACTCAAAATGTCTTGGTCAAGGCGTCAAGCAGGCATTAATTCTATGATTAGTGGTTA CCTTGAACTTCAACTTCTTC
MASSFASSARFSKTQSGVCYSVSFTPRVTVRCCETAKEPPRPKSKLQVGS PIIIVEAPKVIKTAASMPCLRANSGLVKPGDVGRIVSRKPKDLWAVRLSI GTYLLDGKYFKALELEE
ATGGCTTCATCCTTTGCTTCTTCAGCTAGATTCTCCAAGACGCAGTCAGGGGTATGTTACAGTGTGTCCT TCACTCCACGAGTCACCGTGAGATGCTGTGAAACCGCGAAGGAGCCTCCAAGACCAAAATCTAAGCTCCA AGTCGGATCACCAATCATCATCGTGGAAGCCCCTAAAGTGATAAAAACAGCCGCTTCTATGCCTTGTCTA AGGGCTAACTCCGGCTTGGTCAAGCCTGGCGATGTTGGAAGAATCGTGTCGAGAAAACCAAAGGACTTGT GGGCAGTTCGACTTTCCATTGGAACTTATCTTTTAGATGGTAAATATTTCAAAGCTTTAGAGCTTGAAGA GTGA