Information report for VlbZIP30
Gene Details
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Functional Descriptions
- Grapevine VlbZIP30 improves drought resistance by directly activating VvNAC17 and promoting lignin biosynthesis through the regulation of three peroxidase genes.
- VlbZIP30 directly binds to the G-box cis-element in the promoters of lignin biosynthetic (VvPRX N1) and drought-responsive (VvNAC17) genes to regulate their expression.
- Overexpression of VlbZIP30 can increase plant drought resistance by regulating VvNAC17.
- VlbZIP30-overexpressing grapevine plants grown in an illumination incubator show enhanced drought tolerance.
Functional Keywords
Literature and News
Sequences
cDNA Sequence
- >Vitvi04g04257_t001
TGTTTGTCCCCTCCAAACCTCCAACCCTCTAAACATGCCTGCTAATTTCGCCTGAGCACAAGAACTTCCTCACCCTAAACCTCGAATCCTTTCACTTTTTTTTTAGATCCAAACAGCACTATGTCAAGGGAGGATTGAAAATGGATTGATGGGTTTGATTCATTTGTTGGGTTTTTGGGGTTTGTGGATTGGTGGTTGAGGTGGGATCTTTTGGCACATTCTAGGGTTTGTGCTGTTCTTGCTGTTCATATATAGGGATTTTAGGGTTTTGAGATTGGGATTTTGGAAGTTGAATTGATGAATTAGGTGGGGGTTGTTGAATGGGGATTCAGACTATGGGGTCTCAAGGTGGTGGTGGCGGTGGTGGTACTGGTAATGGTAAACAATCTCAGTTTCAGCCATTGGCACGGCAAAACTCAATGTATAGTTTAACACTTGATGAGGTTCAAAATCAGTTAGGAGACTTGGGGAAACCGCTGACTAGTATGAACCTTGATGAGCTTCTCAAGAATGTGTGGACGGTTGAGGCTAATAATTCTGTGGGTATGGATGCTGAGGGTGCAGGTTTGAGTAACCAATCTGCTCTGCAACGAGAGCCTAGCCTGTCATTGACAGGTGCTCTTAGCAAGAAGACAGTTGATGAGGTCTGGCGAGATATACAAGGGCATGGCAAGAACAGTGAAGAGAAGAAATCTCGGGAGAGGCAGCCTACTTTGGGGGAGATGACATTGGAGGATTTCCTGGTAAAGGCGGGAGTTGTCGCTGAACCATCAGATAAAAAGATTGCTGGTACTGTTATTGGGGTTGATCCTAATGTAGGGCCACAATTCCCACAGCAGGGTCAGTGGATGCAGTACCCACAACCACAATTTCCGCATCCGCAACAGAATATGATAGGGGTTTATATGCCAGGCCAGCCAATGCCGCAGCCGCTACCCATGGGACCTAGCTCTGTCATGGATGTGACATATCCTGACAACCAAGTGGCCTTATCTTCTCCATTGATGGGAGCTTTATCAGATACACAGGCACCTGGGAGGAAAAGAGTTTCCCAAGAGGATATGATTGAGAAAACTGTTGAGAGGAGACAGAAGAGGATGATCAAGAATCGGGAATCTGCTGCCCGTTCAAGGGCCAGGAAGCAGGCTTACACAAATGAACTGGAGAACAAAGTTTCACGTCTGGAAGAGGAAAATGAAAGGCTAAGGAAACGAAAGGAGCTGGAGAAGATGCTGCCAAGTGCACCACCCCCGGAACCCAAATACCAGCTTCGCAGAACGAGTTCAGCCCCATTCTGACATTATGTACCTATTAGTAGCAGTTTTGTAGATATGATGCATATGGGGTGCTTCTTGTCTAAAGTTTGCTCTAAGTTGCCTTACCTATTTAATTATTAAAAAAAAAAAAAAAAGGTTTGCTCTAAGGTGGATGGTGGTATAAGGTGCAATCTCTGGGTCTCCTGGGACTAGCCCGGCGATGGTGGCTTCTGGTGGGGATGGTGTTTTCTTCCCCTTGGCTTGAGGTTTCGCCTCTATCTTCATTTATATGGAATGAGTTGAACTAGAAATTCAGATGGGACCATTTTACATTTCCTATTGTCTCTTAAGATTTGCCTCCAAATTCGTAGTTTTGAGTTTCTACAGATGTTTAATATATAGGCTGTTCTCTGTGCCTCTGAACCTCTCAAATCTTTTTGACTTAAAAAAAGTTCATGTGCTCTCGATTCTCCATTTTGCTTGAGGGTGGTGGTGATGAGGATTGGCTAAGATTGTATTAAGTTAAAATTAGATCTTAACTTTTAGCTAATTCTTCTGAGTTGGGCCTTGTGGGGGTGTCTAGGTTCTCTCAGGAAGTAGCATGCAGCTCTTGTTGGGCGTGAATTTGCATTGAAAAAATCATGGTTGAGAATAAGTGCAGTAGAGCAAAATAAGACATTGTTCTGTTTTCACTTTTCCTAAGGGAGACGCCCATGTGTATTATGAATGGGGACTAGTAGTCGTTTCTTTGAA
CDS Sequence
- >Vitvi04g04257_t001
ATGGGGATTCAGACTATGGGGTCTCAAGGTGGTGGTGGCGGTGGTGGTACTGGTAATGGTAAACAATCTCAGTTTCAGCCATTGGCACGGCAAAACTCAATGTATAGTTTAACACTTGATGAGGTTCAAAATCAGTTAGGAGACTTGGGGAAACCGCTGACTAGTATGAACCTTGATGAGCTTCTCAAGAATGTGTGGACGGTTGAGGCTAATAATTCTGTGGGTATGGATGCTGAGGGTGCAGGTTTGAGTAACCAATCTGCTCTGCAACGAGAGCCTAGCCTGTCATTGACAGGTGCTCTTAGCAAGAAGACAGTTGATGAGGTCTGGCGAGATATACAAGGGCATGGCAAGAACAGTGAAGAGAAGAAATCTCGGGAGAGGCAGCCTACTTTGGGGGAGATGACATTGGAGGATTTCCTGGTAAAGGCGGGAGTTGTCGCTGAACCATCAGATAAAAAGATTGCTGGTACTGTTATTGGGGTTGATCCTAATGTAGGGCCACAATTCCCACAGCAGGGTCAGTGGATGCAGTACCCACAACCACAATTTCCGCATCCGCAACAGAATATGATAGGGGTTTATATGCCAGGCCAGCCAATGCCGCAGCCGCTACCCATGGGACCTAGCTCTGTCATGGATGTGACATATCCTGACAACCAAGTGGCCTTATCTTCTCCATTGATGGGAGCTTTATCAGATACACAGGCACCTGGGAGGAAAAGAGTTTCCCAAGAGGATATGATTGAGAAAACTGTTGAGAGGAGACAGAAGAGGATGATCAAGAATCGGGAATCTGCTGCCCGTTCAAGGGCCAGGAAGCAGGCTTACACAAATGAACTGGAGAACAAAGTTTCACGTCTGGAAGAGGAAAATGAAAGGCTAAGGAAACGAAAGGAGCTGGAGAAGATGCTGCCAAGTGCACCACCCCCGGAACCCAAATACCAGCTTCGCAGAACGAGTTCAGCCCCATTCTGA
Protein Sequence
- >Vitvi04g04257_P001
MGIQTMGSQGGGGGGGTGNGKQSQFQPLARQNSMYSLTLDEVQNQLGDLGKPLTSMNLDELLKNVWTVEANNSVGMDAEGAGLSNQSALQREPSLSLTGALSKKTVDEVWRDIQGHGKNSEEKKSRERQPTLGEMTLEDFLVKAGVVAEPSDKKIAGTVIGVDPNVGPQFPQQGQWMQYPQPQFPHPQQNMIGVYMPGQPMPQPLPMGPSSVMDVTYPDNQVALSSPLMGALSDTQAPGRKRVSQEDMIEKTVERRQKRMIKNRESAARSRARKQAYTNELENKVSRLEEENERLRKRKELEKMLPSAPPPEPKYQLRRTSSAPF