Information report for MdbHLH3
Gene Details
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Functional Descriptions
- The regulatory module MdPUB29-MdbHLH3 connects ethylene biosynthesis with fruit quality in apple.
- Overexpression of apple MdbHLH3 gene, an anthocyanin-related basic helix–loop–helix transcription factor (bHLH TF) gene, promotes ethylene production, and transgenic apple plantlets and trees exhibit ethylene-related root developmental abnormalities, premature leaf senescence, and fruit ripening.
- MdbHLH3 regulates ethylene- and ripening-associated genes in fruits.
- ABI5 regulates ABA-induced anthocyanin biosynthesis by modulating the MYB1-bHLH3 complex in apple.
- The basic helix-loop-helix transcription factor MdbHLH3 modulates leaf senescence in apple via the regulation of dehydratase-enolase-phosphatase complex 1.
- The bHLH transcription factor MdbHLH3 promotes anthocyanin accumulation and fruit colouration in response to low temperature in apples.
- The MdbHLH3 protein was post-translationally modified, possibly involving phosphorylation following exposure to LTs, which enhanced its promoter-binding capacity and transcription activity.
Functional Keywords
Literature and News
- The regulatory module MdPUB29-MdbHLH3 connects ethylene biosynthesis with fruit quality in apple. DOI: 10.1111/nph.15511 ; PMID: 30288754
- ABI5 regulates ABA-induced anthocyanin biosynthesis by modulating the MYB1-bHLH3 complex in apple. DOI: 10.1111/nph.15511 ; PMID: 30288754
- The basic helix-loop-helix transcription factor MdbHLH3 modulates leaf senescence in apple via the regulation of dehydratase-enolase-phosphatase complex 1. DOI: 10.1038/s41438-020-0273-9 ; PMID: 32257236
- The bHLH transcription factor MdbHLH3 promotes anthocyanin accumulation and fruit colouration in response to low temperature in apples. DOI: 10.1111/j.1365-3040.2012.02523.x ; PMID: 22519753
Gene Resources
- NCBI ID: HM122458.1
- UniProt accessions:
Sequences
cDNA Sequence
CDS Sequence
- >MDP0000225680
ATGGCTGCACCGCCGCCAAGCAGCAGCCGCCTCCGCGGTATGTTGCAGGCCTCAGTTCAATATGTCCAATGGACTTACAGTCTCTTCTGGCAAATCTGTCCCCAACAAGGGATCTTAGTATGGTCAGATGGGTACTATAATGGAGCTATCAAGACGAGGAAGACAGTGCAACCAATGGAAGTGAGTGCCGATGAGGCATCTCTCCAGAGGAGCCAGCAACTCAGAGAACTCTACGACTCTTTGTCCGCTGGAGAGACAAACCAGCCCCCAGCACGCCGCCCTTGCGCTTCCTTGTCCCCGGAGGACTTAACCGAATCTGAATGGTTCTACTTGATGTGCGTCTCATTCTCCTTTCCCCCCGGCGTCGGGTATTGTCGATCAGTACTAACAACTACCGCAAATAAAATCTTTGATTATCTAAAATGGGCTCACTTTCTGACTAGAGGGCACACTGTAAATGTCCGGAACTGTATTTCTTCAAAAGATGAAATATTATTTAGCTACACGAGTAAGGCTGTGGGTAAGTGCGAAAGAGTGCATCTTGGCACATGTGGTTCTCTGGAGAGAAAGTTGCCAGGGAAAGCATACGCAAGGAGGCAGCATGTATGGCTCACCGGTGCAAACGAGGTCGATAGCAAAACCTTTTCCAGAGCTATTTTGGCAAAGAGTGCTCGTATACAGACCGTGGTGTGCATTCCTCTTCTAGATGGCGTCGTAGAATTTGGCACCACAGAGAGGGTTCCAGAAGACCACGCCTTCGTCGAACACGTCAAAACCTTCTTCGTTGACCACCACCACCCTCCGCCACCAAAACCCGCCCTCTCCGAGCACTCCACATCCAACCCCGCCGCCTCATCCGATCACCCACATTTCCACTCTCCGCACCTTCTCCAGGCCATGTGCACCAACCCTCCTCTCAACGCCGCCCAAGAAGACGAAGAGGACGAAGAAGAAGATGATAATCAGGAGGAGGACGACGGAGGAGCCGAGTCCGACTCCGAAGCCGAAACGGGCCGCAATGGTGGAGCCGTTGTTCCCGCCGCAAACCCTCCTCAGGTTTTGGCCGCGGTAGCCGAGCCAAGCGAGCTCATGCAACTCGAGATGTCCGAAGACATCCGGCTAGGCTCCCCGGACGATGCCTCAAATAACTTGGACTCTGATTTCCACTTGTTAGCTGTGAGTCAGTCTAGGAACCCAGCGGATCAGCAGAGACAAGCTGACTCGTATCGAGCCGAGTCGACCAGGCGGCGTCCGTCAGTACAAGAGCCGCTGAGCAGTGGCCTTCAACCGCCGCACACAGGACCCCTAGCTTTAGAGGAGTTGACACATGATGACGACACACATTACTCGGAGACAGTCTCCACCATACTGCAGGGACAGGTGACTCAGTTGATGGATTCATCGTCCACCGACTACACAGCTTGCTTGACTCAATCAGCTTTCGCCAAGTGGTCGAGCCGGGTTGATCACCACTTCCTCATGCCGGTTGAAGGCACGTCCCAATGGCTCTTGAAATATATTTTGTTTAGTGTACCGTTCCTCCACTCAAAATATCGCGACGAGAACTCGCCAAAATTTCAGGAGGGCGAAGGCTCGACACGGTTGAGGAAAGGGACCCCACAAGACGAGCTCAGTGCTAATCATGTGTTAGCGGAACGACGTCGTAGAGAGAAGCTTAATGAGAGGTTTATTATACTAAGGTCCCTGGTGCCTTTTGTGACAAAAATGGACAAGGCTTCGATATTAGGAGACACAATCGAGTATGTAAAGCAACTGCGTAACAAAATTCAGGATCTCGAGGCACGTAACATGCTGGTGGAGGAAGATCAACGGTCAAGATCATCCGGGGAAATGCAAAGGTCCAATAGTTGTAAAGAGTTGCGAAGTGGGCTCACGCTAGTGGAGCGGACCCAAGGAGGTCCACCCGGGTCCGATAAAAGGAAGTTGAGGATTGTGGAGGGAAGTGGCGGTGTCGCCATTGGTAAGGCTAAAGTAATGGAGGACTCACCGCCTTCACCACCCCCGCCACCACCTCAGCCAGAACCTTTACCGACACCTATGGTGACGGGGACTTCTCTAGAGGTGTCGATAATCGAGAGTGATGGGTTGTTGGAGCTCCAGTGCCCGTATAGAGAAGGGTTATTGCTTGATGTGATGCGAACACTTAGGGAGCTAAGAATTGAGACCACGGTGGTCCAGTCCTCATTGAATAACGGATTTTTCGTAGCTGAACTAAGAGCCAAGGTGAAGGATAACGTCAGTGGCAAGAAAGTAAGTATAACGGAAGTGAAGAGGGTGATAAATCAAATTATACCCCAATCTGACTCTTAA
Protein Sequence
- >MDP0000225680
MAAPPPSSSRLRGMLQASVQYVQWTYSLFWQICPQQGILVWSDGYYNGAIKTRKTVQPMEVSADEASLQRSQQLRELYDSLSAGETNQPPARRPCASLSPEDLTESEWFYLMCVSFSFPPGVGYCRSVLTTTANKIFDYLKWAHFLTRGHTVNVRNCISSKDEILFSYTSKAVGKCERVHLGTCGSLERKLPGKAYARRQHVWLTGANEVDSKTFSRAILAKSARIQTVVCIPLLDGVVEFGTTERVPEDHAFVEHVKTFFVDHHHPPPPKPALSEHSTSNPAASSDHPHFHSPHLLQAMCTNPPLNAAQEDEEDEEEDDNQEEDDGGAESDSEAETGRNGGAVVPAANPPQVLAAVAEPSELMQLEMSEDIRLGSPDDASNNLDSDFHLLAVSQSRNPADQQRQADSYRAESTRRRPSVQEPLSSGLQPPHTGPLALEELTHDDDTHYSETVSTILQGQVTQLMDSSSTDYTACLTQSAFAKWSSRVDHHFLMPVEGTSQWLLKYILFSVPFLHSKYRDENSPKFQEGEGSTRLRKGTPQDELSANHVLAERRRREKLNERFIILRSLVPFVTKMDKASILGDTIEYVKQLRNKIQDLEARNMLVEEDQRSRSSGEMQRSNSCKELRSGLTLVERTQGGPPGSDKRKLRIVEGSGGVAIGKAKVMEDSPPSPPPPPPQPEPLPTPMVTGTSLEVSIIESDGLLELQCPYREGLLLDVMRTLRELRIETTVVQSSLNNGFFVAELRAKVKDNVSGKKVSITEVKRVINQIIPQSDS