Information report for 30413
Gene Details
Functional Annotation
- Refseq: XP_001416857.1 — predicted protein
- TrEMBL: A4RTW7 — A4RTW7_OSTLU; Uncharacterized protein
- STRING: ABO95150 — (Ostreococcus ’lucimarinus')
- GO:0009651 — Biological Process — response to salt stress
- GO:0046686 — Biological Process — response to cadmium ion
- GO:0003677 — Molecular Function — DNA binding
Family Introduction
- A novel myb-like gene (AtmybL2) was isolated from an Arabidopsis thaliana cDNA library. The single copy gene was localised on chromosome I. A gene specific transcript is preferentially found in leaves. The predicted gene product consists of a conservative N-terminal myb-domain known to be involved in DNA-binding and a unique proline-rich C-terminal part. Remarkably, the myb-domain includes only one of the typical two or three tryptophan repeats found in other myb-like proteins.
Literature and News
Gene Resources
Sequences
CDS Sequence:
- >30413|Ostreococcus_lucimarinus|MYB_related|30413
ATGTATTACCAAAACCAGCACCAAGGAAAGAGCATCCTCTCTTCTTCAAGAATGCACTTAGCTTCTGAGAGGCATCCTTTCCTTAGAGGAGGGAACAGTCCAGGAGATTCTGGTCTCATCCTTTCAACCGATGCAAAGCCACGCTTAAAATGGACTCCTGATCTTCATGAGAGATTCATTGAAGCAGTTAATCAACTCGGTGGAGCTGATAAAGCAACTCCTAAAACAATCATGAAAGTCATGGGTATTCCAGGGCTTACCTTATACCATCTCAAAAGTCATCTTCAGAAATACAGACTGAGCAAGAATCTCAACGGACAAGCTAACAGCGGCTTAAACAAAATAGGTATGATGACCATGATAGAAGAAAAGAGCCCTGATGCAGATGAAATTCAAAGCGAGAGTTTAAGCATTGGACCACAGCCAAACAAGAACTCACCTATAGGTGAAGCACTGCAAATGCAAATAGAGGTCCAAAGAAGGCTTCATGAGCAACTTGAGGTACAGCGACATTTGCAGCTCAGGATAGAGGCTCAAGGGAAGTACTTGCAATCAGTTTTGGAGAAGGCACAAGAGACTCTCGGTAGACAGAACCTGAGTCCAGCTGGGATCGAAGCTGCCAAAGTTCAGCTCTCGGAGTTAGTATCCAAAGTATCAGCAGAGTACCCAAACACTAGCTTCCTAGACCCAAAAGAGTTTCAAAACCTATGCCCACAACAGATGCAAACAGCTTATCCACAGGATAGTTGCTTGACATCGAGCGAGGGAGCTCAGAAAAACCCTAAAATGCTAGGGCTAAGAACATATCTTGGTGATTCAACATCCGAGCAGAAAGAGGTTATTGAAGAACCATTGTTCCAAAGAATGGAGCTCACGTGGAATGAAGGTTTGAGAGGAAATCCATATCTTTCAACAATGGTTACGGACGCAGAACAAAGAGTCTCATATTCAGAGAGAAGTCCATCTACACTGACAATGGGAGTAGGGATGCACGGACACAGAGGTCATCAGCAAGGCAGCAATGAGTATAATAAAGACGAAAGATTCAATGACAAGAGCGAGGATCATAAGCTTGAAACACAAAGCACAAAGACAGAGCTAGATCTTAACACACATGTTGAAAACTGTTGTACAACGCGGCCGAAACAGTTCGACTTGAATGGTTTTAGCTGGAACTGA ATGGATACTGCTCAATGGCCACAGGAGATTGTGGTGAAGCCAATTGAAGAAATTGTGACAAACACATGTCCAAAACCAAGTGTTTCAATTTTAGAGAGAAAAATTAGACCACAGAAGGAACAAGCTTTGAATTGTCCAAGGTGTAATTCAAGCAATACAAAGTTTTGTTATTACAATAATTATAGTCTCACACAACCAAGATACTTTTGCAAAACTTGCAGAAGGTATTGGACTGAAGGTGGATCTTTAAGAAACATTCCTGTTGGTGGAGGCTCAAGAAAAAACAAAAGACCTTCTTCTAATTCTTCATCATCTACATCTCCCACACCACCTAATTCTTCTTCTCAATCTCAACCTAATTTCCCCAAGAAAATTCTTGATCATCAGCTCCCTCAAAACCCTAAAATCACCCCCTCCCAAGATCTCAACTTGTTTTTTCCACCCTCAAACAATCAAGATCATCATCGTTTCACCACTACTAACAACAACCTCTCCGAAATGATTCTTGTTGGTAGTAACCCTTCCATTAATAATGCCACCTCTTCCTCCGCTTCTGCGACCACGACAATGTCGTCACCACCCCCATCGCAACCTTCGGTGATGGAGCTTCTCACCGGGATGGCGAACAACAACAACAACAACTCTAGTAGGGGTTTGAATTGTTTCGTTCCGATGTCGTCAGTTGTTGTCCCTGATCCTAGCTCTGTTTACACGGGAGGGTTTCCTGATCTTCATGATCAATTCAAACCAAGCCTTGGATTCTCTCTCGACGGATATGGTGTCGTCTCAACCGAGGCAGGTAATGGTGCAGGGAGGCTTATGCAGCTGCCATTTGAGGATTTGAAGCAAGTGTCTAATGGAGTTGAACAAGGGAAAGATCAGCAAGGAGATGATCATAATTCAAATGGGTATTGGAGTGGAATGTTGGGTGGAGGATCATGGTAA ATGGCAGAGAAAGAGAGATGGCCTGTGTGCTCATTCATGGGTGACGGTGAAGCAGTAGCAGTACCGCACTCAAAACTGAAGAAGAAAGGTAGGCCACCAATACCAAAGAAGGAAAATGTGTTTAAAGAATTGAACGGAGTTGATGATGATCCTCGTAATCCTCAAAAAAGACGAAAGGGAGAGGGAACAGGCATGGGCATTGTCATTGATGCTCCTCCATGTAATACTCAAGCTTACCAACGTGCAAAAGAGGTTCAAGCTAACCTATCTCCTCAATTCCCAACCTTTCTTAAGTCCATGCTTCCATCTCACGTAGCCGGAGGATTTTGGCTTGGTCTTCCCAAAAAATTCTGTAACTTGTATATGCCCAAGCTTGATACTACCATCGCTTTGGAAGATGAAACTGGCCAACTTTATGAAACCAAATATCTTGCTCAAAAGGCCGGTTTAAGTGCAGGATGGAGGGGCTTTTCCATAGCTCATAACTTACTTGAGATGGATGTTCTAATATTCCACCTGGTCCAACCTTCCAAGTTTAGGGTGTACATTATAAGATCTCAGGAATCTGATGAACTGGATGGTGCTCTTGTCCTTCTTAAGTCAGATGGGTGCAGAAAACAAAGTGATGATGCTAATGATCATAAGAATAGCGGGATGATTTTTTGTGCTAATGTGTCTCATCCAGACCAGGTTGAAAATACTAGTGAAGATTTTGACTCTGGAATTAGATTTTCAGAATCAGTTGTCAGTTTCAAGCAAGTGACTGGTGTGGAGAATTTCAGGATTGTGGTGAATGGTTTGGTTATTGATTCGGAGCTCTCCAAATACATTCGGAACAAGTATTATGAGCTGTGTTGCAGCCAGAGGTCGTTTCTTCATGACCATCTTCTTGAGGGTCTTAACACTAAACTGGCGGCTGGAATAATTTCTGAGACCATTAATATTGCCGATGCCATTAAAGCCAGCAATCTTACAACCTCTCCAGATAGTCTTGTCATATGGGACAAAACTTTGAAAGCCTTTGAGACAATGGGTATGAATGTCAGCTTCTTGCTTATTCGGCTAGACCAGCTCATGAAACTAGCTTTGAAATTGAAGAGGTACAAGGAGGTAACACTCGAAAGAGACCACGCTGCAGAGGAGTTGAAAGCTCTAGAAGCAAAACTATTGGAAGTAAAACAAACTATAAATAGACTTGATCAAGAGAATGATATACAACATATGCACCCTGAGAGGCTGGAGACTATGTTCCAAGAACTGGCTGATGCTCCTTGGTGA ATGGCGACCATGGCGCCATCCCAAACACCCGGGTGTCATGCGACGCGCGCGGCGCTGCGACGGGACGGCGCGCCGGGAGCGGTGCGCGGGTATAGATTCGTGAATCGACCCGATGTGAATGGGGATACCGATGCGGTAGATCAACAAATGGCGGGATTCGTGTCGGAGGCGGGGCCGTTCGACGCGGATCCGGTGCTGAAGGCGGCGGAGCGGGAAATTTTGAGCGCGACGAAGGCGCAGAGACGCGCGGCGGCGGAGCGTGGAGCGTTGTTGGAACACGGGTATGGGGCAATGCTTGGAACGGGAAGTGGGTCGATGGGGAATTTGGGCATGCTCACGGCGTCAGGTGGAAGCGACGACGACGACAAGGCGTCGACGCAGAGCGTGGCCTACTTGAGCGGCGACGCCGCGTCGAACCGGTCGTACTCCCCGTTCGACGTCACCCTGGATGAAGCCGCGGAGAACTTGCTGTGTGAATTCGGCGCACCGATTATGGACGGCGCCATCGGTCTCATCGATGACGAAGGCGCTGAAATTTTCGTCGAGCACAACGCGCCGCCGCTCTCGTCTTGGATGAGCAACGGCAATTTGTGCGGTCTCGTCGCGCCGAATGATCACGAGCCCGAGTGGGCTTCGGGTGGTGGCGCGCACGGCGCGTATGCGCACGTCCCAGCTGTGATCGATTTCGGTGTTCCAGGGCACACCGAGGTTGAATCCATCGCCTCTCTGCGCGGGCAGTATCGCGCTCTCTTCGGCAAGGACACCAACTCAAACAATAGACAGTGGATCCTTAAGCGACTCGAAGCGTTCAGAAATGGCGACGACTTCACGCCGCCGTCGAGCCGATTCAGCTCGCCGCTTTCCGGCGAGGACACCCTCATGAACGTGGGCGCATCTCGCTTCAAGCCGCAAGCATCGCCCAAGCGCGCCGCGGGCAAGCGCCAAGTCAAGTCTGCGCGCTCGTTGTACGACGACGACGCTATGGACGAACACGAGAGCCCCAGACGTGGCGTCGCGGCGAAAGGACGAGGCGGTAAGGGCGCCAAGGGAAAGCGCTCCGCCGAAGCCACACTCCCGAAGAGTGCGCACAAAAAGGCGAAGAGCGTGAGCGATGCCGAATCCAACGACGGCGACATCGGCAAGAAAGGATCCGGTCGCGCCGCTGGCAAACCCGCCGGTAGAGGTAAACCCGGCGAGAATGGCACCGGTCGTCGTAGTAAGCATCACAATCCTTGGGCACTCGAAGAAGCCGAAGCGCTCGTGCGCGGCGTCGCGCAGTGCGGCGGCGGTAAGTGGGCAGATATCAAAAAGCTCGGTTTCACCGCCATCGAACACCGCACGGCGGTGGATCTCAAGGATAAGTGGCGCAACCTCTTACGCATCGCAATGTTGCCGCAACAGTCTGTGAAGACCGTGGGCGACAAGAAGCGAGAGATCCCACAAGAGCTTCTCGCCAAGGTGCGAGAGCTCGCGGCCAAACAGGCCAAGGCCAAAGCGGCGGCGGAGAGCCGGCGATGA ATGGGTTCAACTTCAAATCCCCTTGAGCTAAATTCTCTTGATCTTGCACTGAGTCTAAAGCCCTCTTATGTCCCAAAATCACTCAATCACTTATTCAGTGATCTGGCAAGTATAGATAATGTTCCACACAAATTGTCTGTTTTGAATGAGTATCTTCTAAAACACCAAGAAGAGCTCCACAGAGTAGAGGAATTTAAAAGAGACCTACCTCAATGTGTTCTTCTGTTGTTGGATGCTATACAAACACTCAGTAACGAAATTGAGAAGTTGAGTGGCCAAGATCAGTTCGATGCATGTAAGAATAGAGGCTCATGTGAGGATCCAGTGGAACGGCGGAGTGCGTTCCGAAAATATAAGAGCTCATCACCTCCGTTTTACCCTAGGCCTCGCAACCAAGATCATACAAGTCATGACCATAAGGTGAAGGGAAAGGAGCCGATCCTCATGGTGCCAAGTCCCAGGAGACGTTTCCCATGTGACCTCAACATGGAGGCAAACGGTTCAGAGCTGGAGCTAAAGCCAGAACCAGATCCACAGCCACAGCCAGAGGTACCTCCGCCTATATGGAAACACAGCAGATTAAGCTGGACGCAAGAGCTCCATACAAAGTTTGTGGAGGTCTTGAGCATGCTGGGAGGTCCTGCAGAAGCAACTCCAAAACAAATTAGGGAGGCCATGCAGGTCGATGGGCTTACTAACGACCAAGTGAAGAGTCACCTGCAGAAGTACAGGCTCAACAGCTTGGGCGTCCAACCAGCAGCTTCTGCCAAAAGTTCTAAGAGGAAAGCCCCGTTTTACTTCAGGGACTTTTGGAACCCTAGCGCTTCTCAACAGCAGCTCGAAAGTGCGAGCAATGGTGGAGGTGGCTCTAGCAGCAGGGGAAATGCAGAGCCAGAAATGAGAAAATCAAAGAGAACCTGGTTAGGTGATGCTTAG
Protein Sequence:
- >30413|Ostreococcus_lucimarinus|MYB_related|30413
MATMAPSQTPGCHATRAALRRDGAPGAVRGYRFVNRPDVNGDTDAVDQQMAGFVSEAGPFDADPVLKAAEREILSATKAQRRAAAERGALLEHGYGAMLGTGSGSMGNLGMLTASGGSDDDDKASTQSVAYLSGDAASNRSYSPFDVTLDEAAENLLCEFGAPIMDGAIGLIDDEGAEIFVEHNAPPLSSWMSNGNLCGLVAPNDHEPEWASGGGAHGAYAHVPAVIDFGVPGHTEVESIASLRGQYRALFGKDTNSNNRQWILKRLEAFRNGDDFTPPSSRFSSPLSGEDTLMNVGASRFKPQASPKRAAGKRQVKSARSLYDDDAMDEHESPRRGVAAKGRGGKGAKGKRSAEATLPKSAHKKAKSVSDAESNDGDIGKKGSGRAAGKPAGRGKPGENGTGRRSKHHNPWALEEAEALVRGVAQCGGGKWADIKKLGFTAIEHRTAVDLKDKWRNLLRIAMLPQQSVKTVGDKKREIPQELLAKVRELAAKQAKAKAAAESRR*