CDS
| Accession Number | TCMCG061C12811 |
| gbkey | CDS |
| Protein Id | XP_042050497.1 |
| Location | join(38203815..38203919,38204331..38204429,38204677..38204739,38205403..38205480,38205864..38206050,38206617..38206882,38206960..38207323,38207864..38207938,38208362..38208636,38208717..38208773,38208925..38209224,38209308..38209483,38209588..38209870,38210115..38210339,38210712..38210861,38210982..38211125,38211215..38211433,38211827..38212117,38212238..38212402) |
| Gene | LOC121795901 |
| GeneID | 121795901 |
| Organism | Salvia splendens |
Protein
| Length | 1173aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA737421 |
| db_source | XM_042194563.1 |
| Definition | protein ALWAYS EARLY 3-like isoform X1 [Salvia splendens] |
EGGNOG-MAPPER Annotation
| COG_category | BDT |
| Description | SANT SWI3, ADA2, N-CoR and TFIIIB'' DNA-binding domains |
| KEGG_TC | - |
| KEGG_Module | - |
| KEGG_Reaction | - |
| KEGG_rclass | - |
| BRITE |
ko00000
[VIEW IN KEGG] ko00001 [VIEW IN KEGG] |
| KEGG_ko |
ko:K21773
[VIEW IN KEGG] |
| EC | - |
| KEGG_Pathway |
ko04218
[VIEW IN KEGG] map04218 [VIEW IN KEGG] |
| GOs | - |
Sequence
| CDS: ATGGGGCCCACGAGAAAGTCGAGAAGTGTGAATAAGCGCTATTCTGATATCCCCGAGGTATCCCCCAGCAAAGATGGAGATAGTTCTAAAAAAAGTAACAGTCGGAAAAGAAAGTTGTCTGACATGCTTGGGCCTCGGTGGACCATGGAAGAGCTAACTCGTTTTTATGACTCTTACCGCAAGCACAGTAAAGACTGGAAGAAGGTAGCTGGTGCTGTCAGAAATCATTCAGCAGAAATGGTGGAGGCACTTTACACGATGAATCGGGCATACTTATCTCTTCCACATGGAACTGCTTCTGCAGCTGGGTTAATCGCCATGATGACTGATCACTATAGCAATCTGGCAGTAAGTGATAGTGACCAAGAAAACAATGATGGAGCAGGATCATCCCAAAAGACACAGAAGCGTGCTCGTGGGAAAGTACAGCCTCCCACCCCTAAAGTGCCAGATGAGTACATTGCTTCAGAATCTCCAATCACTGCATCAAATTATGGCTGCCTTTCATTATTGAAAAAGAAACGCTCTGGTGGGAGCAGACCTCGCCCTGTTGGAAAAAGAACTCCAAGGTTCCCTGTTTCATTTTCATATGAAAATATCAATGGGGAGAAATTTTTTTCTCCAACAAGGCAGGGGCTGAAATTAAAGTCCAATGCTGATGACGATGAAGTGGCTCATGAGATAGCCATAGCTTTGGCGGAGGCATCACAGAGAGGTGGTTCCCCCCAGGTTTCTGGTACACTTAATAGAAGAGCTGAAAGTGTAATGTCATCGCCTTTTAGGCATGCTCAAAGAAAGCCTAATATAGCAGAGATATCAAATGCCAAGCAGTTGGCAACAGACACGGATGAAGAAGATTTAGAAGGAAGCACAGAAGCTGACACTGGTGAATTGTCTAGGTATAAGCCCCATTTGATTGGATCTGTAAGTATTGGTACAACAAGACAGAAGGGAAAAAAACTTGAAGGGAGAAAACATGAAGTTGATAACAATATTGAGAGTCATTTGGGTGACATCAAGGAAGAATGCAGTGGAACAGAGGAAGGTCAGCAACTGCTGAGTGCAATGAGAAGAAAGTTTGATGTGGAGGTCAATGACACTAAGGTATCCAGATCCCCTATGCAGAATAAGAAGAAGAGCAAAAAGGTTCTCTTTGGAAGAGACGAAGGACCTGCTTTTGATGCCTTGCAAACATTGGCGGATTTGTCACTGATGATGCCAACAGATAATGAAGATGATTCAGTGGTGCTGTTTAAAGATGAACATCATGATCATGTTGATGAGTCTGTGCCATTAGAATCTCCGCCAGCAAACCAGCCAAGAGAGAAACGTAGACCCTCAGGGGTAAGAACGAAAGGACATCTAGCATCGAGTCTTGAAGTTGCTTCTAGCAAAACATCAAAACCTGGAAAAGGTTCAGTTTTTTATGGTGGTTCTGTTCATGAAGAATACCAGGATTCCCATCAGTCTACCACTAAAGCAAGAAAAAAACAAAAGACGCCAGTTTCTAAGAGTCAAAAGCCTGAAACTCATGCTGATGTTCATCTTAGTGGATCACCAGGGATTGAGGTTGGAGATGTAGGCAAGAAATTGATGAGGAGTAAAAAATCTTCCCAGAGCAGTTCCCCGAGAGTGATGAAAATTTCAGAAAACTCTTCTGGTACTGATTTGCAGAAAGAAGGAAGTGACTCCGCCCAATCAGCCACACAGGTCACGGTCAATAACTTACCTACTAAAATGCTGAGCCGGCGCAAGATGAATCTTAAAAAACCATTGGCCAAGAAAGACCTGAAGTTATCTGAAAAGATCTCAAACGATGAGAATAATCTGTCACTTGGTTTGCTCCATGATACAGTGCCTAGATTTAAGAACCTGTCTAATTGTTTATCGAATCAACGTCTGAGGAGATGGTGCACTTATGAATGGTTCTACAGTGCCATTGATTATCCATGGTTTGCAAAGAGGGAGTTTGTTGAATATCTGTATCATGTTGGATTGGGTCATGTACCGAGATTAACTCGTGTAGAGTGGGGTGTCATAAGAAGTTCACTTGGTAAACCACGGCGGTTTTCAGAGCAGTTCCTGAAGGAAGAAAAAGATAAGCTTAATCAGTATCGAGAGTCTGTCAGAAAACATTACACTGAGCTCCGTGAAGGTCTAAGGGACGGACTACCGACTGACCTTGCAAGGCCTTTATCAGTTGGTCAGCGTGTCATTGCTATTCATCCAAAAACAAGGGAGATTCATGATGGAAGTGTGTTAACTGTTGATCACTTGAAGTGCCGGGTTCAATTTGACCGTCAAGAGCTAGGGGTTGAATTTGTCATGGACATTGACTGCATGCCTGTAAATCCTTTTGAGATCATGCCTGCAATACTAGGCAGACACACAATCACAGTTGACAAGTTTTTTGAGAGCTTCAATGAACTGAAAGAGAATGGACGAGCAAAGGAGTATATTAAGCTTTCTCCTAACACCAACCTGGATAATATGGATGATATTTTTCGGCTATCTTTATTAGCTAATCCTGCTAGTTTCCTGAAGCAATCAAAGGTTGCCTCTGATGTTTCAACAAGGCCGGGAACTGGTGATACCGCAACGTACCAGCAAACTTATCCTCAGCCCGGTACACTAGCGCAGATCCAGGCAAAGGAAACTGACATTCAAGCTCTTGCACAACTGACTCGTGCTCTTGATAAAAAAGAAGCTATTGTTCTCGAGTTGAGGCGTATGAACGATGACGTGGTGCAAAGTCGGAAGGATGGTGATAGCCCTTTAAAAGAATCGGAACCATTTAAAAAGCAATATGCCGCGGTACTTATACAATTGAATGAAGCCAATGAACAGGTCTCTTCAGCTTTACACCGCTTGAGAGAACGAAACACATATCAAGGAAAACTTTCACTTGCATGGCCAAGGCCGCTGCTTGGTCTTGCTGATCTGGATAGCACATTCAATTCTTTTGACCGTTCTGCATTTCAAACTCAAGAATTGGGATCACATGTGAATGAAATCGTGGATAGCTCGAGAACAAAAGCTCAGACGATGGTGGATGCAGCATTGCAGGCAATATCATCACTCAAGAATATGGAGGATACCATGGAGAAGATTGAGGAAGCCATAGACTATGTAAATGACCGGCTTCCCTCAGACGATTCCTGCATTCCTGTGGTGAATCTTCTACTTATCTTATCTAACTCTCTCTCTATGTATCGCCGCCTCAACTATTATGATCTTTTTTTAAACTGTAAGCTGTTGCAGAGAACTGATCCTAAATCTACAAATGCATCTGATATTGAGACCCAAATTCCTTCTGAGCTGATCACAAAATGTGTAGCAACTTTGCTAATGATTCAGAAATGTACAGAAAGACAGTTCCCTCCATCTGACGTGGCACAGATACTAGATTCTGCTGTGACAAGCCTACAGCCACGCAGTTCGCAAAACCTTCCTGTTTATACCGAGATACAAAAGTGTGTGGGCATCATCAAGAACCAGATATTGGCTCTAATACCTACTTAG |
| Protein: MGPTRKSRSVNKRYSDIPEVSPSKDGDSSKKSNSRKRKLSDMLGPRWTMEELTRFYDSYRKHSKDWKKVAGAVRNHSAEMVEALYTMNRAYLSLPHGTASAAGLIAMMTDHYSNLAVSDSDQENNDGAGSSQKTQKRARGKVQPPTPKVPDEYIASESPITASNYGCLSLLKKKRSGGSRPRPVGKRTPRFPVSFSYENINGEKFFSPTRQGLKLKSNADDDEVAHEIAIALAEASQRGGSPQVSGTLNRRAESVMSSPFRHAQRKPNIAEISNAKQLATDTDEEDLEGSTEADTGELSRYKPHLIGSVSIGTTRQKGKKLEGRKHEVDNNIESHLGDIKEECSGTEEGQQLLSAMRRKFDVEVNDTKVSRSPMQNKKKSKKVLFGRDEGPAFDALQTLADLSLMMPTDNEDDSVVLFKDEHHDHVDESVPLESPPANQPREKRRPSGVRTKGHLASSLEVASSKTSKPGKGSVFYGGSVHEEYQDSHQSTTKARKKQKTPVSKSQKPETHADVHLSGSPGIEVGDVGKKLMRSKKSSQSSSPRVMKISENSSGTDLQKEGSDSAQSATQVTVNNLPTKMLSRRKMNLKKPLAKKDLKLSEKISNDENNLSLGLLHDTVPRFKNLSNCLSNQRLRRWCTYEWFYSAIDYPWFAKREFVEYLYHVGLGHVPRLTRVEWGVIRSSLGKPRRFSEQFLKEEKDKLNQYRESVRKHYTELREGLRDGLPTDLARPLSVGQRVIAIHPKTREIHDGSVLTVDHLKCRVQFDRQELGVEFVMDIDCMPVNPFEIMPAILGRHTITVDKFFESFNELKENGRAKEYIKLSPNTNLDNMDDIFRLSLLANPASFLKQSKVASDVSTRPGTGDTATYQQTYPQPGTLAQIQAKETDIQALAQLTRALDKKEAIVLELRRMNDDVVQSRKDGDSPLKESEPFKKQYAAVLIQLNEANEQVSSALHRLRERNTYQGKLSLAWPRPLLGLADLDSTFNSFDRSAFQTQELGSHVNEIVDSSRTKAQTMVDAALQAISSLKNMEDTMEKIEEAIDYVNDRLPSDDSCIPVVNLLLILSNSLSMYRRLNYYDLFLNCKLLQRTDPKSTNASDIETQIPSELITKCVATLLMIQKCTERQFPPSDVAQILDSAVTSLQPRSSQNLPVYTEIQKCVGIIKNQILALIPT |