Gene Details:
- Gene ID: MDP0000144744
- Gene Symbol: MdMYB94MdMYB306-like
- Gene Name: MYB transcription factor 94
- Genome: Golden ASM211411v1
- Species: Malus domestica
Functional Descriptions:
- MdGH3.6 is targeted by MdMYB94 and plays a negative role in apple water-deficit stress tolerance.
- MdMYB94 positively regulates apple water-deficit stress tolerance and leaf cuticular wax biosynthesis.
- These results indicated that the MdMYB94 OE plants accumulated fewer ROS and had higher levels of antioxidant enzymatic activities. Taken together, the above data suggested that MdMYB94 is a positive regulator for water-deficit stress tolerance of apple.
- MdMYB94 OE plants are more tolerant to water-deficit stress.
- Apple MdMYB306-like inhibits anthocyanin synthesis by directly interacting with MdMYB17 and MdbHLH33.
- The MdMYB306-like protein activates the expression of an anthocyanin repressor gene, MdMYB17, and inhibits the expression of MdDFR (an anthocyanin structural gene) by directly binding to the corresponding promoters.
- MdMYB306-like interacts with MdbHLH33 and MdMYB17 to enhance its regulatory activities on MdMYB17 and MdDFR, respectively.
- Our results revealed that the MdMYB306-like protein, in conjunction with MdMYB17 and MdbHLH33, forms a key regulatory module to fine-tune anthocyanin synthesis in apple.
Function-related keywords:
- anthocyanin , protein , leaf , stress , tolerance , stress-tolerance , cuticular-wax-biosynthesis , wax-biosynthesis , wax
Literature:
- Apple MdMYB306-like inhibits anthocyanin synthesis by directly interacting with MdMYB17 and MdbHLH33. DOI: 10.1111/tpj.15720 ; PMID: 35220614
- MdGH3.6 is targeted by MdMYB94 and plays a negative role in apple water-deficit stress tolerance. DOI: 10.1111/tpj.15631 ; PMID: 34918398
Related News:
Gene Resources:
- NCBI ID: XM_029097452
- UniProt accessions:
Orthologs:
Sequences:
cDNA Sequence
CDS Sequence
- >MDP0000144744
ATGGGGAGGCCTCCTTGCTGTGACAAAGAAGGGATCAAGAAAGGACCTTGGACTCCTGAAGAAGACATCAGTTTAGTCTCTTACATTCAAGAACATGGTCCTGGAAATTGGAGGGCTGTTCCTACCAACACAGGGCTGCATAGATGCAGTAAAAGTTGCAGGCTTAGATGGACTAATTACCTCAGGCCAGGGATCAAGCGTGGTAACTTTACTGACCATGAGGAGAAGATGATCATCCACCTTCAAGCTCTTTTGGGYAATAGATGGGCTGCAATAGCTTCATACCTCCCTCAGAGAACTGACAATGACATTAAAAACTATTGGAACACACACTTGAGGAAGAAGCTGATCAAGCTCCAAGCTGCAGGAGGAGGCACTGAAGGCCTTCACTCTAAAGATCAAGGAAACAGTAATTCTTCCTCACAGGCAATATCCAGAGGACAATGGGAGAGGAGGCTTCAAACAGACATCCACATGGCCAGGCAAGCTCTCAGAGATGCCCTTTCCCCAGAAAAGCCACTGGCTTTGAGTTCTGATTTGAATCCCGCAGATGGGTTTTCGATTTCGAACCTGAAAAACCCAACTCTAGATCAATCAAGCAATTCTACTTATGCTTCAAGCACTGAGAACATTTCAAGATTGTTGAAAGGTTGGATGAAAAACCCACCAAATAAATCAGCTAGATTAACCAACTTGGCTAATAATCAGACAGATTATCAGCATTATTCATCTAGTGAGGGAACCACATCTGTGGCAAATACTGCGAATAGTGGCAATGTTGAGTTATCTGATACATTTGAGTCTCTGTTCGGTTTTGAGTCCTCGAATTCCGATTTGTCTCCATCCATGTCGCCGGAGGCCAGCCTATTCCAGGGCGAAAGCAAGCCGGATCTTATCAGCGGCCAGTTGCCGCTGTCGTTTCTTGAGAAGTGGCTGTTTGATGAAGGTGCTGCTGCTGCTGCTCTAGGGAAAGACCACTTCTTTAGTGATACGGTGACACCAGATCATGGAAATGCTAACTTTTTCTGA
Protein Sequence
- >MDP0000144744
MGRPPCCDKEGIKKGPWTPEEDISLVSYIQEHGPGNWRAVPTNTGLHRCSKSCRLRWTNYLRPGIKRGNFTDHEEKMIIHLQALLGNRWAAIASYLPQRTDNDIKNYWNTHLRKKLIKLQAAGGGTEGLHSKDQGNSNSSSQAISRGQWERRLQTDIHMARQALRDALSPEKPLALSSDLNPADGFSISNLKNPTLDQSSNSTYASSTENISRLLKGWMKNPPNKSARLTNLANNQTDYQHYSSSEGTTSVANTANSGNVELSDTFESLFGFESSNSDLSPSMSPEASLFQGESKPDLISGQLPLSFLEKWLFDEGAAAAALGKDHFFSDTVTPDHGNANFF