VvNAC26

Gene Details:

We selected three drought-responsive genes of interest, namely, VvNAC26 (VIT_01s0026g02710), VvNAC17 (VIT_19s0014g03290), and VIT_14s0068g00300, for further analyses.
We identified three drought-responsive genes (VvNAC26, VvNAC17 and VIT_14s0068g00300) as candidate target genes of VlbZIP30.
The gene VvNAC26, which encodes a NAC domain-containing transcription factor, has been related to the early development of grapevine flowers and berries.
Polymorphisms and minihaplotypes in the VvNAC26 gene associate with berry size variation in grapevine.
Our results suggest the participation of VvNAC26 in the determination of the grape berry final size. Different VvNAC26 polymorphisms and their combination showed to be associated with different features of the fruit.

cDNA Sequence

>Vitvi01g01038_t001
CTCCCTTCTCTTCAACACCTGTTACCCTTTCCTCACCCTTTCCAACTGCCCAAACAGGCAAAAGGAAAACCTGCTGCGATGGATGGAAAAGGCAGCTCTCAACTTCCTCCCGGTTTTAGATTCCACCCCACCGACGAGGAACTCATCATGTATTACCTCAAAAACCAAGCCACTTCCAAGCCATGCCCCGTATCCATTATCCCCGAAGTGGATATCTACAAATTCGAGCCTTGGGAATTGCCTGAGAAGGCGGAATTTGGAGAAAATGAGTGGTATTTCTTTAGCCCGCGTGACCGTAAGTATCCCAATGGGGCTAGACCCAACCGAGCTACAGTGTCCGGCTACTGGAAAGCCACAGGGACAGACAAGGCAATCTACAGTGGGGCTAAGTATGTGGGGGTGAAAAAGGCTCTTGTGTTCTACAAGGGTAGGCCTCCTAAGGGCATTAAGACCGATTGGATTATGCATGAATATCGCCTTAGTGATTCAAGGCCACGCCCCAAGAAGCACAATGGTTCCATGAGATTGGATGATTGGGTGCTATGTAGGATCTATAAGAAGAAGCATGTGGGGAGAATTTTGGAAGAGAAAGAAGAAAATTTAGGTCCCCAAATACCCGTTACAAATTCAGATGATGGCGGTGAGCAGCACCAAGTGAAATTTCCAAGGACTTTTTCCCTTGCTCATTTATTGGACATGGAATACTTGGGTCCAATTTCACAACTTCTAGGTGACAATTCATACCATTCAGCCTTTGATTTCCAAGGCACCATAAGCAATATTGCCGGAACCGACCCCCCTGGCGTGGACAAATTCGAGTTATTCCAACTGCCATGCCAATACAACGATTCAACCAAGTTCCAAGTGAATCAGAATCACATTCCGAACCAGCCTCTATTTGTGAACCCAGTGTATGAATTTCAGTGATTAGGCTTGGTTTAATCTTTAAAGGAGGGGAGGGTTGATTGGGTTAGACATGATGGGCATGGCCTGTCCAAAAATTGTAAAAAAGGAAAAATGAGTTAACCATGAAATATACCTTCTAAATTGAATATCAGCAC

CDS Sequence

>Vitvi01g01038_t001
ATGGATGGAAAAGGCAGCTCTCAACTTCCTCCCGGTTTTAGATTCCACCCCACCGACGAGGAACTCATCATGTATTACCTCAAAAACCAAGCCACTTCCAAGCCATGCCCCGTATCCATTATCCCCGAAGTGGATATCTACAAATTCGAGCCTTGGGAATTGCCTGAGAAGGCGGAATTTGGAGAAAATGAGTGGTATTTCTTTAGCCCGCGTGACCGTAAGTATCCCAATGGGGCTAGACCCAACCGAGCTACAGTGTCCGGCTACTGGAAAGCCACAGGGACAGACAAGGCAATCTACAGTGGGGCTAAGTATGTGGGGGTGAAAAAGGCTCTTGTGTTCTACAAGGGTAGGCCTCCTAAGGGCATTAAGACCGATTGGATTATGCATGAATATCGCCTTAGTGATTCAAGGCCACGCCCCAAGAAGCACAATGGTTCCATGAGATTGGATGATTGGGTGCTATGTAGGATCTATAAGAAGAAGCATGTGGGGAGAATTTTGGAAGAGAAAGAAGAAAATTTAGGTCCCCAAATACCCGTTACAAATTCAGATGATGGCGGTGAGCAGCACCAAGTGAAATTTCCAAGGACTTTTTCCCTTGCTCATTTATTGGACATGGAATACTTGGGTCCAATTTCACAACTTCTAGGTGACAATTCATACCATTCAGCCTTTGATTTCCAAGGCACCATAAGCAATATTGCCGGAACCGACCCCCCTGGCGTGGACAAATTCGAGTTATTCCAACTGCCATGCCAATACAACGATTCAACCAAGTTCCAAGTGAATCAGAATCACATTCCGAACCAGCCTCTATTTGTGAACCCAGTGTATGAATTTCAGTGA

Protein Sequence

>Vitvi01g01038_P001
MDGKGSSQLPPGFRFHPTDEELIMYYLKNQATSKPCPVSIIPEVDIYKFEPWELPEKAEFGENEWYFFSPRDRKYPNGARPNRATVSGYWKATGTDKAIYSGAKYVGVKKALVFYKGRPPKGIKTDWIMHEYRLSDSRPRPKKHNGSMRLDDWVLCRIYKKKHVGRILEEKEENLGPQIPVTNSDDGGEQHQVKFPRTFSLAHLLDMEYLGPISQLLGDNSYHSAFDFQGTISNIAGTDPPGVDKFELFQLPCQYNDSTKFQVNQNHIPNQPLFVNPVYEFQ