Gene Details:

Functional Descriptions:

  • Real-time quantitative polymerase chain reaction (RT–qPCR) verification revealed that the promising candidate transcription factor genes VvMYB4-like, VvERF113, VvWRKY31, VvWRKY1, and VvNAC83 may regulate cell wall metabolism candidate gene expression for grape berry texture changes.
  • The expression of candidate genes for cell wall metabolism showed a trend similar to that of VvMYB4-like, VvERF113, VvWRKY31, VvWRKY1, and VvNAC83.
  • VvWRKY1 gene expression in grape is regulated in a developmental manner in berries and leaves and by various signal molecules involved in defence such as salicylic acid, ethylene, and hydrogen peroxide.
  • Functional analysis of VvWRKY1 was performed by overexpression in tobacco, and transgenic plants exhibited reduced susceptibility to various fungi but not to viruses. These results are consistent with a possible role for VvWRKY1 in grapevine defence against fungal pathogens.
  • Isolation and characterization of a Vitis vinifera transcription factor, VvWRKY1, and its effect on responses to fungal pathogens in transgenic tobacco plants.

Literature:

Gene Resources:

Orthologs:

Sequences:

cDNA Sequence
  • >Vitvi17g00102_t001
    GTGAATTTGGACGCTAGCCATTAGGCCGCCCTTCTTTTTCTGTGTTCTGCCTTTTACCATCGCATAAACTTCTTCCTCCCATCCCCTCTTTTCCCACCACAAGCCTGTTGATTCATCTTCTTCGTGAAATCCGCCTGTTTTAATCTCAATCTCTCTCAGTCTCTCTAATGGAAGGCCACCAAATACTTTTTCCCGGTTCATCAAAATCACCCGCAAATCCTTTTCCACCAAACATGGCAAATTTTCATGCTATGAACATTTATAAGAGTGCTGGTTTTGATGCCTCTGAGACCAAGGAAAAACCAGGTAAAAAGGAAGGTCAAAAGAAGATTAGAAAGCACAGATTTGCGTTTCAAACGAGGAGCCATGTTGATATCCTTGATGATGGGTATCGATGGAGGAAATATGGGCAGAAAGCAGTCAAGAACAACAAATTTCCCAGAAGCTACTACCGGTGCACGTATAAAGACTGCAATGTGAAGAAGCAGGTCCAACGCCTCTCAAAAGATGAAGAGATTGTAGTCACAACCTATGAAGGCATTCATACACACCCTGTGGAGAAGCCCACCGAGAACTTTGAACACATCTTGAGGCAGATGCAATCATATTTTCCCATCTCATGAGTATTTCCATTTCACCAAAATGTGTTTTTGTATATAAATAATATGAGAATGATATGGAAAGAGTGGTGGACACCCATATCATCTCTTGGAAAGTGATTTTCCTGTGGAGAAAGTTGAAACCAGTACTGTCCTTCATTTTGGAGGATCTTGTGATATGATCACTGTATGAAGATTGAAAATCAATTTTAGGTTTTTGGTATTTGGATTGAAAACCATTCTTTGTGGTGTGTAAGGATGAATTCTTTTAAGCATTTGAGTCAAGGGTTCGGGCAGAAATAAAAATATTGTGTCTGAGAATGAATGTTCTATATTGCAGATTACAA
CDS Sequence
  • >Vitvi17g00102_t001
    ATGGAAGGCCACCAAATACTTTTTCCCGGTTCATCAAAATCACCCGCAAATCCTTTTCCACCAAACATGGCAAATTTTCATGCTATGAACATTTATAAGAGTGCTGGTTTTGATGCCTCTGAGACCAAGGAAAAACCAGGTAAAAAGGAAGGTCAAAAGAAGATTAGAAAGCACAGATTTGCGTTTCAAACGAGGAGCCATGTTGATATCCTTGATGATGGGTATCGATGGAGGAAATATGGGCAGAAAGCAGTCAAGAACAACAAATTTCCCAGAAGCTACTACCGGTGCACGTATAAAGACTGCAATGTGAAGAAGCAGGTCCAACGCCTCTCAAAAGATGAAGAGATTGTAGTCACAACCTATGAAGGCATTCATACACACCCTGTGGAGAAGCCCACCGAGAACTTTGAACACATCTTGAGGCAGATGCAATCATATTTTCCCATCTCATGA
Protein Sequence
  • >Vitvi17g00102_P001
    MEGHQILFPGSSKSPANPFPPNMANFHAMNIYKSAGFDASETKEKPGKKEGQKKIRKHRFAFQTRSHVDILDDGYRWRKYGQKAVKNNKFPRSYYRCTYKDCNVKKQVQRLSKDEEIVVTTYEGIHTHPVEKPTENFEHILRQMQSYFPIS