Gene Details:

Functional Descriptions:

  • We found that MdNB-ARC OE transgenic apple plants exhibited greater anthocyanin accumulation than the wild-type (GL-3) plants when 6% sucrose was added to the medium.
  • Overexpression of MdNB-ARC involved in plant defence signalling pathway leading to red apple fruit maybe through the WRYK family.
  • An apple ERECTA-like gene that underwent selection during domestication on 15th chromosome was identified as a likely major determinant of fruit length and diameter, and an NB-ARC domain-containing gene was found to strongly affect anthocyanin accumulation using a genome-wide association approach.

Literature:

Gene Resources:

  • NCBI ID:
  • UniProt accessions:

Sequences:

cDNA Sequence
mRNA Sequence
  • />MD09G1272500
    ATGAACCATGCAGTTGAAGAAGTCGAAAGAAAAGTTAATGAAAAAGTGGAAGTTGATGTCCGGAACTGGCAGACAGAAGCAGATGAGATCTCTCGAGAGGCAGAAGCAATATTGGATGATGAAGGCCGTGCAAAGACAAAATGTTTGTATATATGTCCTAACCTGATATCCTATCATCAGCTCAGCAGAAAATCAACTAAATTGGTGAGAAAGATTGAAGAACATGAAAATAAAAAAGAGTTTCCCACAATTTCTTACAATGCTGCCTTAGAAGACATATCTGCCATAGCCTCCGACGAGTACATGGCCTTTGAATCAAGGATTTCAATGGTGAAGGATATCATTACGGAATTGAAAAAACCTGATATCAACAGGATTGGGGTGTACGGATTAGGGGGCGTTGGGAAGACAACACTTGCCAAAGAGGTTTACAGAGAAGCTGTGAAAGAGAAGTTATTTGATGATGTGGTTCTGGTACTAAATGTCAAAGAAAAAAGAGACAACGAAAAAATTCAAAAAGAAATTACCAAAAAGTTGATGATGTACGTTGATGAATCTGAGGATAGGGGAACAAGGGGGAATCTCCTACGGGCCAGGATAAAAGAGGGGAAGACTCTTGTCATTTTAGACGATGTTTTGGAAAGAATTGACTTTGAAGCTGTGGGACTCGTCGGTGTGCCGAACTGTAAGCTATTATTGACATCTAGAGAAAAAAAAGTTTTATGCTCTGATATGCGTACGCAAAAAGATTTTCAACTTGGATTTTTAAGAGAAAAAGAAAGTTGGAGTTTGTTTGAGAAGATGGCAGGTAATGTCGTTAAAGACAACCGTATACTGAAAGAAGCAACCCAACTAGCAAAGAAATGTGGAGGTTTGCCGGTTTTGGTTGTTGCAGTTGCAAGTGCTTTAAGGGATAGTAGTTTGGATGAATGGAAAGTTGCGCTGAGAAGTTTCAAAAGATTTGACAAGAAAGAATTGAATGAAAAAGAATTCTTGGCTCTAAAGTGGAGTTACGAACAATTGGAGGATCAAGAGCTTAAGCAATTGTTCTTGCTTTGCGGAATTCTTGCATTTGGGAATGGCAAGATTTATGTCTTTTACTTGTTTCAATGTGCTATGGGCTTGGGTTTGGTTAGAAGCGTTGAGACAGTGGAAGAGGCACGGATTTCATTGAATTCAATGGTTAAAAAACTAAAAAATTCTTGCCTATTACTGGACGGTTATGACGATGAGACTGTTAGAATGCATGAGCTTGTACTAGATGTTGCTGTCCGGATTGCATCTGATGATCAAAAGGCCTTTTCAAGAAAATATGGAGATGGGTTGAAAGAATGGCCAACTGAGGATTTCCTTAAAAAATGCACATGGATCTTCGTAGAAGGTGGCAACATCCCCAGACTTCCTGAAGCACCTTGGGAATGCCCAGAATTAAAATTGTTGACGTTGGATGTGCATAATATTGGCGACTCCCAGGAAATCCCAAGCAAATTTTTTGAAGGGATGAAAGAACTCAAAGTGTTGGATTTAACCAAATTCCATATTCCGTCACTACCTCCGTCTCTTCAATCCCTAAAGCATCTCCACACATTGTGTTTCGGTTACTGCGAGTTGGTAGACATAACACTTGTTGGGCAGTTAACAAACTTGAAGATCCTTAGCCTGCTACACTCCAAGGTTAAAGAGTTGCCCAAAGAAATAGGGCAATTGACTAGGCTACAATTATTGGAGTTGACTGGCTGCTCTGAACTGATTTTGGTCTCACCTGATGTTATATCAAGTTTGACAAGACTAGAAGATTTGAGGATGGGAATAAAAAGCTTCAAACAGTGGGAAGGTGAAGGTTTGGTCGATGGCAGAAGAAGTAATGCTAGGGTTTCAGAGCTGAAGAACTTATCTCATCTATCCGCATTGGACATACATGTTCCAGATGCTAACCTTCTTCCAACCAACTTGTTCTCCGATAATTTAGAAAGATACACCATACTTATCGGTGATTGTTGGAAATATCCTGACATCTATGCAACCTGCTATAACATGCTAAAACTCAAGCTCACCAGGACTAATCAATTCGACCGAGGTATAAAGTTGCTGGTAAAGAGATGTGAGCAATTGTACTTGGACGGGATGGAGATTGTGAGTATTATTTCCTTTCTATTTCACAGTGAAGCTGTTAAACAACTGAAGCATCTCCATGTTCCAAAACAACGACCAAGTTACATATCTCATTAACTCCATCAGTTGGCATTATTCTCGTAATGCCTTCCCCAACCTGGAATCTCTATTTTTTGAAGACCTTGTGAGCTTGGAAAGTGTGTGTTATGGGCAACT
Protein Sequence
  • />MD09G1272500
    MNHAVEEVERKVNEKVEVDVRNWQTEADEISREAEAILDDEGRAKTKCLYICPNLISYHQLSRKSTKLVRKIEEHENKKEFPTISYNAALEDISAIASDEYMAFESRISMVKDIITELKKPDINRIGVYGLGGVGKTTLAKEVYREAVKEKLFDDVVLVLNVKEKRDNEKIQKEITKKLMMYVDESEDRGTRGNLLRARIKEGKTLVILDDVLERIDFEAVGLVGVPNCKLLLTSREKKVLCSDMRTQKDFQLGFLREKESWSLFEKMAGNVVKDNRILKEATQLAKKCGGLPVLVVAVASALRDSSLDEWKVALRSFKRFDKKELNEKEFLALKWSYEQLEDQELKQLFLLCGILAFGNGKIYVFYLFQCAMGLGLVRSVETVEEARISLNSMVKKLKNSCLLLDGYDDETVRMHELVLDVAVRIASDDQKAFSRKYGDGLKEWPTEDFLKKCTWIFVEGGNIPRLPEAPWECPELKLLTLDVHNIGDSQEIPSKFFEGMKELKVLDLTKFHIPSLPPSLQSLKHLHTLCFGYCELVDITLVGQLTNLKILSLLHSKVKELPKEIGQLTRLQLLELTGCSELILVSPDVISSLTRLEDLRMGIKSFKQWEGEGLVDGRRSNARVSELKNLSHLSALDIHVPDANLLPTNLFSDNLERYTILIGDCWKYPDIYATCYNMLKLKLTRTNQFDRGIKLLVKRCEQLYLDGMEIVSIISFLFHSEAVKQLKHLHVPKQRPSYISH