Information report for MdARF5-1
Gene Details
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Functional Descriptions
- The ARF MdARF5-1 was identified as a negative regulator of anthocyanin biosynthesis in apple, and it integrates auxin and ethylene signals by inhibiting the expression of the ethylene response factor MdERF3.
- The auxin repressor MdIAA29 decreased the inhibitory effect of MdARF5-1 on anthocyanin biosynthesis by attenuating the transcriptional inhibition of MdERF3 by MdARF5-1.
- MdARF5-1 is involved in the auxin inhibition of anthocyanin biosynthesis.
Functional Keywords
Literature and News
Homologs
- Citrullus lanatus: Cla020817
- Cucumis melo: MELO3C003768P2
- Cucumis sativus: Cucsa.342870.1, Cucsa.342870.2
- Fragaria vesca: mrna08492.1-v1.0-hybrid
- Gossypium hirsutum: Gh_D01G0951, Gh_A01G0908
- Manihot esculenta: Manes.18G015400.1.p
- Populus trichocarpa: Potri.005G236700.1, Potri.002G024700.1
- Prunus mume: XP_008221297.1, XP_008221298.1
- Prunus persica: Prupe.1G368300.1.p
- Pyrus bretschneideri: Pbr005854.1, Pbr028076.1
- Ricinus communis: 30170.m014161
- Vitis vinifera: GSVIVT01009865001
- Ziziphus jujuba: XP_015884813.1
Sequences
cDNA Sequence
CDS Sequence
- >MDP0000143749
ATGATGGGTTCGGTGGAGGAGAAGCTCAAAACTGGATGCTTGCTTGATGAGATGAAGCTGCTGAAAGAGCTGCAGGACCACTCTGGGACCCGGAAGGCTATAAATTCGGAGCTATGGCACGCTTGCGCCGGCCCGCTTGTTTGCTTGCCGCAGGTTGGGAGTCTCTCGTACTACTTCCCCCAAGGACATAGCGAACAGGTGGCGGTTTCGACGAAAAGAACGGCAACCTCACAAATTCCGAACTATCCCAATCTCCCTTCTCAGTTGCTATGCCAAGTTCAAAATGTTACACTGCATGCAGACAAAGAAACCGACGAAATCTATGCACAAATGAGCCTTAAACCAGTGAGCTCTGAAAGGGATGTCTTCCCGGTACCGGACTTTGGAATGAGGCCTAGTAAACATCCATCTGAGTTTTTCTGCAAAACTTTGACCGCAAGTGACACAAGCACACATGGAGGGTTCTCCGTGCCGCGTAGGGCAGCGGAAAAGCTCTTTCCTCCGCTGGATTTCACAATGCAGCCACCAACCCAAGAACTTGTTGTCCGAGACTTGCACGATAATACCTGGACATTTCGCCACATTTATCGCGGGCAGCCGAAACGACACCTTCTCACAACTGGATGGAGTTTGTTTGTTGGTGCAAAGAGGCTTAGAGCAGGGGATTCCGTTCTATTTATCAGGGATGAGAAGTCGCAGCTATTGATCGGTGTGAGACGAGCAAATCGTCAGCAAACAACATTGCCGTCATCAGTTCTATCTGCTGATAGCATGCACATTGGTGTCCTTGCTGCTGCGGCTCATGCTGCAGCTAATCGGAGTCCATTCACTATATTCTACAATCCAAGGGCATGCCCTTCAGAATTTGTCATACCTTTGGCCACCTTCCAAAAGGCTGTATTTGGGACACAGCTCTCGATTGGCATAAGGTTTGGAATGGTGTTCGAGACAGAGGAGTCGGGCAAGCGCAGATATATGGGCACGATAGTTGGTATTAGTGATTTAGATCCGCTGAGATGGCCTGGTTCAAAATGGCGAAATCTTCAGGTAGAGTGGGATGAGCCAGGGTGTTGTGATAAACAGAACAGGGTTAGTTCATGGGAAATCGAAACTCCGGAAAGTCTTTTCATATTTCCTTCTCTGACTTCGAGTCTTAAAAGACTGATGCACTCTGGATTCTTGGGAGCAGAAACCGAATGGGGAAATATGACCAAAAGATCATTCATCCGGGTTCCTGAGATTGGAAACGGGAACTCTTTTCCATACCCGATTTCAAATCTATGTTCGGAACAGCTAGTCAATATGCTAATGAAACCTCAGCTTGTTAATCATGCTGGAACATTAGCTACTCTACAACAGGAATCGGCTGCTAATGTAGATTCAGTAGATATGAAGGCCATGCAGGCCAAAATCAACCAGAAGAATCCAGCTGATGGCGTAAACGCGAATGCACCATCTCATGGAATTCCACCGGGAAATCTGAACACCGTAGCCAAGTTTGGAAGCCAAGCACCAGTTGGAAGTAGCACTGAGAAGATGAAATCAGAACCTGAACTTTCTGCAGATCAGTTAAGTCAGTTGAGTTCGGCAGGGCAAGGCATCGAGGATAAATTAGCTGCAGGGTTTGCGAGTCCCTATAACCATATGAATCAGCTGACATTTGCCAACCAAAACCCCAGTTCAGCGCAACTACAAACTAGTCCGCGGCCTATGCAGCCTTTGGATTCACTACTCTACCACTCTCAACAAACTGAATTACCTCATTCGGATTTCAATGGCATGAACAGTTCACTTCCATTCCTAGACAATGATGAATGCATGTTTTACTCTTCTTGCCTACCTTTTTCTGGGGCACTCAGATCACCGGGTCCTTTGTCTGCTTTCGGTTTACCAGATTCTTCAACTGTTTTAACTGACGCAAATACTTCCTCCCTAACTTCAATCGGTCAGGACATGTGGGATAATAGCCTCATTAATTCAAGCAGCCTGAGAGATTTGTCGGATGAGAGCAACAATCAAAGTGGGATCTACGGCTGTCCGAACATTGATGTTGGTAGCTGCTTAAGTACTGTCGTCGACCCTTCTGTCTCAAGCACTATACTCGATGACTTCTCTACGCTGAAGAATGCCAACTTCCAGAATTCTTCGGATTGTTTGGTTAAAAACTTGAGCTCAAGCCAGGATCTTCAGTCGCAGATTACCTCGGTGAGCCTTGGAGACTCTCAGGCTTTCTCTAGGCAAGACCTGGCAGACGCCTCAGGCGGTACATCCTCGAGCAATGTAGAACTTGATGAGAGCAGTCTACTGCAGAACAGTTCGTGGCATCCGGTGGTTGCACCTGTGCGAACCTACACAAAGGTTCAAAAGACGGGATCTGTTGGGCGGTCAATTGATGTTACTAACTTCAAAAACTACGAAGAACTATGCTCTGCAATCGAATGCATGTTCGGACTGGAAGGGCTGCTAAATGATCCAAGAGGTTCAGGGTGGAAATTGGTTTATGTAGATTATGAGAACGACGTTCTACTTGTCGGGGATGATCCTTGGGAGGAATTTGTTGGTTGTGTCCGCTGCATCAGAATCCTTTCGCCTACTGAAGTTCAGCAGATGAGCGAAGAAGGCATGAAGCTTCTGAACAGTGCTGCGATGCAAGGGATGAATAGCACCATGTCCGAAGGTGGCCGTCCCTAA
Protein Sequence
- >MDP0000143749
MMGSVEEKLKTGCLLDEMKLLKELQDHSGTRKAINSELWHACAGPLVCLPQVGSLSYYFPQGHSEQVAVSTKRTATSQIPNYPNLPSQLLCQVQNVTLHADKETDEIYAQMSLKPVSSERDVFPVPDFGMRPSKHPSEFFCKTLTASDTSTHGGFSVPRRAAEKLFPPLDFTMQPPTQELVVRDLHDNTWTFRHIYRGQPKRHLLTTGWSLFVGAKRLRAGDSVLFIRDEKSQLLIGVRRANRQQTTLPSSVLSADSMHIGVLAAAAHAAANRSPFTIFYNPRACPSEFVIPLATFQKAVFGTQLSIGIRFGMVFETEESGKRRYMGTIVGISDLDPLRWPGSKWRNLQVEWDEPGCCDKQNRVSSWEIETPESLFIFPSLTSSLKRLMHSGFLGAETEWGNMTKRSFIRVPEIGNGNSFPYPISNLCSEQLVNMLMKPQLVNHAGTLATLQQESAANVDSVDMKAMQAKINQKNPADGVNANAPSHGIPPGNLNTVAKFGSQAPVGSSTEKMKSEPELSADQLSQLSSAGQGIEDKLAAGFASPYNHMNQLTFANQNPSSAQLQTSPRPMQPLDSLLYHSQQTELPHSDFNGMNSSLPFLDNDECMFYSSCLPFSGALRSPGPLSAFGLPDSSTVLTDANTSSLTSIGQDMWDNSLINSSSLRDLSDESNNQSGIYGCPNIDVGSCLSTVVDPSVSSTILDDFSTLKNANFQNSSDCLVKNLSSSQDLQSQITSVSLGDSQAFSRQDLADASGGTSSSNVELDESSLLQNSSWHPVVAPVRTYTKVQKTGSVGRSIDVTNFKNYEELCSAIECMFGLEGLLNDPRGSGWKLVYVDYENDVLLVGDDPWEEFVGCVRCIRILSPTEVQQMSEEGMKLLNSAAMQGMNSTMSEGGRP