Information report for MdARF13
Gene Details
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Functional Descriptions
- These results demonstrated that MdARF13 together with MdIAA121 mediate auxin signaling to regulate anthocyanin biosynthesis.
- Overexpression of MdARF13 repressed anthocyanin accumulation in the apple callus.
- In apple, exogenous auxins repress anthocyanin biosynthesis most likely through the MdIAA121–MdARF13 signal transduction pathway.
Functional Keywords
Literature and News
Sequences
cDNA Sequence
CDS Sequence
- >MDP0000412781
ATGGAAATTGATCTGAACCATGCAGTGAGGGAGGTGGAGAAGAATGCTTATTGCAATGGGGATTGTGGCGGTGTTTGTGTTTATTGCTTGTCCTCTTCAACTTCTTCATCTTCTTCCAATTCATCCTCAGCTCCTGTGGCTTCCTCAATTTATCTGGAGCTTTGGCATGCTTGTGCTGGCCCTCTCATCTCACTCCCCAAGAAAGGGAATGTGGTTGTCTACTTCCCACAAGGCCACTTGGAGCAAGTTGCCTCCTCCTCTCCTTTCTCTCCCATGGAGATGCCCACGTTTGATCTCCACCCGCAGATCTTCTGCAAGGTTGTGAATGTCCAGCTGCTTGCTAACAAGGAGAATGATGAGGTCTACACACATGTCACTTTGCTTCCTCAGCCTGAGTTGGTAGGAACAAATTTGGAAGGGAAAGAGCTTGAAGAGTTGGGAGTGGATGAGGGGGATGGAGGATCACCTACAAAATCAACCCCTCACATGTTTTGCAAAACGCTTACAGCTTCCGATACCAGTACACACGGAGGGTTTTCTGTTCCTCGGAGAGCTGCTGAAGACTGCTTTCCTCCATTGGACTATAAACAGCAGAGGCCGTCTCAAGAACTTGTTGCAAAGGACCTACACGGGGTAGAGTGGAGGTTTCGACATATATATAGAGGTCAGCCAAGGCGACATCTGCTCACTACAGGATGGAGTATTTTCATAAGCCAAAAGAATCTTGTAGCGGGGGATGCTGTGCTTTTTTTGAGGGGTGAAAACGGAGAGCTGAGGTTGGGAATTAGAAGAGCTGTTCGACCTAGAAATGGTCTTCCTGATTCAGTTGTAGGCAACCAGAATTCGTACCCTAGTGTTCTTTCTTTCGTGGCTAATGCGATATCCACCAAGAGCATGTTTCATGTATTCTACAGTCCAAGGGCAAGCCATGCAGAGTTTGTCATTCCCTACCAAAAATATGTCAAAAGCATCACTAATCCGGTGACCASYGGGACACGATTCAAAATGAGATTTGATAGGGATGATTCACCTGAAAGAAGGTGTAGTGGTGTAGTGACTGGTATCACCGACTTGGATCCGTTTCGATGGCCAAACTCAAAATGGAGATGCTTGATGGTCAGATGGGATGAAGATATAGGAAATGATCATCAAGAAAGAGTCTCGCYGTGGGAGGTTGATCCTTCTGTTTCTCTCCCACCTTTGAGCATCCAGTCTTCTCCAAGACTGAAGAAACTGCGGACAAGTCTGCAGGGAACCCCRCCCATCCCCTCCATCACTGGTACRATACTTCCCAATAACATYGCAAGCATTTTTTACATCATCATTRGTCCTCAATATGTGAATTTTCTTGCAGCTGGAGGGGCTGGGTTTAAGGACTTTGAGGAATCAGTTAAATCCTCTAAGGTCTTGCAAGGTCAAGAAAATATAGGTTTCATATCACCCCTCTATGGGGKTGATACTGTAAACCRCCCGCAAGATTTTGAGATGCACGCTCCGGCACATCTAAGTCTTGCATCAAATGCAACACAGAAGGCTACTATTGATGAGCTTATGAGGGCTCGSCGCACCCCCTACACAGGATTTGCGGAATCAGATAGATTTCCAAAAGTCTTGCAAGGTCAAGAAATATGCCCATTGAGATCGTTGACAGGAAAAGCAAATTTCACCCTAGGTGATTGGGAATCCAACAATGGTTGTGCACCTTTCAACGTTTATCAACCACCCAAACCAAATTATTTCTCTCTAGCTTCTGGATCCCTTCCAAATATGTACTTTCCTTATGGTGACWTTCACAGAGCTGGCCAAGATCCCACAATGTGCTCTAATGCTACCAACTTACCCAGAGAGAAAATGCAAATCAACCCATAYTCTATGCAGAYGGGAGTTGCAAGRAATGAAGTTGGAAGGCCAAATAAACCTTGTGAACATAAGACACAGGAGAGTACTTCTACCCTTCCCGCTTTAGTGCCAAATCCAAGAAATCCAAATGATAAAGACTATAACGGGACTGTTACTGGGTGTAAACTTTTTGGTTTTTCCTTGACCGGGGACAATCCCTCTCCAAACTCTCAGAGTTCCAGTAAGCGGAGTTGTACAAAGGTTCACAAGCAAGGCAGCTTAGTGGGAAGAGCCATTGATCTCGCAAAACTGAATGGCTATGGTGACCTGCTGACCGAACTGGAGCGGCTGTTTGGCATGGAMGGCCTTCTTCGAGATTCTGATAAAGGATGGCGGATCTTGTACACTGATAGTGAGAACGATATGATGGTTGTTGGGGATGACCCATGGCATGAATTTTGCAATGTGGTCTCCAAAATCCATATATATACCCGGGAAGAAGTGGAGAAGATGACCATCGGAATGATCAGCGATGATACTCAAAGTTGTTTGGAACATGCGCCGGTCATGCTTGAAGTGTCAAAGTCCTCATCCGTGAGCCAGCCGGATTCTTCTCCGACGGCTATCCGGGTCTAA
Protein Sequence
- >MDP0000412781
MEIDLNHAVREVEKNAYCNGDCGGVCVYCLSSSTSSSSSNSSSAPVASSIYLELWHACAGPLISLPKKGNVVVYFPQGHLEQVASSSPFSPMEMPTFDLHPQIFCKVVNVQLLANKENDEVYTHVTLLPQPELVGTNLEGKELEELGVDEGDGGSPTKSTPHMFCKTLTASDTSTHGGFSVPRRAAEDCFPPLDYKQQRPSQELVAKDLHGVEWRFRHIYRGQPRRHLLTTGWSIFISQKNLVAGDAVLFLRGENGELRLGIRRAVRPRNGLPDSVVGNQNSYPSVLSFVANAISTKSMFHVFYSPRASHAEFVIPYQKYVKSITNPVTXGTRFKMRFDRDDSPERRCSGVVTGITDLDPFRWPNSKWRCLMVRWDEDIGNDHQERVSXWEVDPSVSLPPLSIQSSPRLKKLRTSLQGTPPIPSITGTILPNNIASIFYIIIXPQYVNFLAAGGAGFKDFEESVKSSKVLQGQENIGFISPLYGXDTVNXPQDFEMHAPAHLSLASNATQKATIDELMRARRTPYTGFAESDRFPKVLQGQEICPLRSLTGKANFTLGDWESNNGCAPFNVYQPPKPNYFSLASGSLPNMYFPYGDXHRAGQDPTMCSNATNLPREKMQINPYSMQXGVARNEVGRPNKPCEHKTQESTSTLPALVPNPRNPNDKDYNGTVTGCKLFGFSLTGDNPSPNSQSSSKRSCTKVHKQGSLVGRAIDLAKLNGYGDLLTELERLFGMXGLLRDSDKGWRILYTDSENDMMVVGDDPWHEFCNVVSKIHIYTREEVEKMTIGMISDDTQSCLEHAPVMLEVSKSSSVSQPDSSPTAIRV*