Information report for MdDEP1
Gene Details
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Functional Descriptions
- We show that MdbHLH3 also regulates ethylene biosynthesis and leaf senescence by promoting the expression of dehydratase-enolase-phosphatase complex 1 (MdDEP1).
- Apple dehydratase-enolase-phosphatase complex 1 (MdDEP1), initially characterized as active in the recycling of the ethylene precursor S-adenosylmethionine (SAM), is essential for regulating leaf senescence. Furthermore, MdbHLH3 was shown to mediate leaf senescence via direct activation of MdDEP1 expression.
- These results support the conclusion that MdDEP1 also plays a key role in leaf senescence in apple.
- Consistent with its role in the Yang cycle, apple plantlets overexpressing MdDEP1 accumulated a significantly higher amount of methionine.
- This accumulation may explain the higher ethylene production observed in the MdDEP1 transgenic plantlets compared to the level produced in the WT control.
Functional Keywords
Literature and News
Sequences
cDNA Sequence
CDS Sequence
- >MDP0000180420
ATGCAGACAGAAGCGGGAGACGGATATGTGTCGACGGGGAAGTTTGACATAACTGTCGACCAATGTTCCCCATTACAGTTGAAAAAATCCGAAGGCCAGGAGGATCAACATCCTGAACCGGCGAAATGCTTTGTAGAGGGTGAAACTGCACACGTTGAAAGCAAGAACGGTGTCTCAGAGTGCGGAAATCCTTTAGAACCACTCTTAGATCCAAAGGTTGACAAACAAGAGATCTGCGTAGCGGAGAGGCCTCAAGGTGATGAATCAAATCAAGTAGAAACAGGGAATCCACATAGGGAAAATGGAGAAAAAGGAAGTGAAGAGAAGGAAGCCGTGGAGGCAACGGAGAAAAAGTCTGAACATGTTGAGAGTAATGGCATTGTAAATGCTGAAGCAGCGGAAGCATCGAGAAGTAAGACAAACCTTGATGAACACGTTCAAGTAATCTCGGATCAACAGGATTCCGGCATGGGGAAGTCCTTTGCCATGGTGTATGAAGAAAAGGGTCCTGAAGTAACCTCGGAAACTAAAGAAAGCGCTGAGGACAAGCTCGAAAGTGCATCCGTGTTAGATGACCACGAAGAAAAAGCCGGACTTGGAAAGGAAATCCAAGAGAAGAACATCCCAGATACTCCATTACCCACAAAAACAGAAGATATCATTGAGGAGAGTCCAAAAGAAGTTAAGAACCAATACGAAACCTTTGAGGAAACTCCCGAAGCTAGTGGCACTGCAAGTGAAGCAGTTAAGGAGGATGAAAATGCAGAATGCCAGGTTGAAAGTCCATGCATGAAACGTGAGGAAGGTACACTGAAAAAAGGTGAGACACTGGATACAGGAGAGGCTTCAGTGGTGGAGGAGGAAGTTCTTAATGTTTCAACTGTGAAATGTGACGAAGGTGTTCAGGGAGATGGTACCAACCCAACTAAGGATGACAAAGATGTAGACACATTTACCGCCAAAGTGGTTGAAGATGATGACTATACTAGTGCAGTCACCATTACAGTAATGAGCGCAAAAGTAACACCAAATGATGAAGAAAGTTCACCACAGACCTTGCAGAAATGTGATTCAGGAGAGGAGCTTCAACATTTGCGGGATGTGATGCCTGAGGAAACTAAGACAGAAACATCCCGGGAAAATGCAAAAGAAATTACCTGCACGAAAGAGGAAACAACAACTCAGAACACGCAAGAATACTTGGACGAAGAAAAGAAAGAAGCAACTGAAAACACAAACAATCTAGAAGATGACAATGCAAGGGACGAGGTGCTTGATACTGCCGGTGCAGAACAAGAAACTGGAGAACACGTGGTTAGGGAAATTCATACGCTCGCAGAACCACCTCAAGATTTCGTTGATAAAGAAACAAATGAAGAAACCTCCACGGAATATCAGGCATGTACCGAGGCAGCTGATTTGAGTATAAATACAGCGGAAAAGAACTTACAGGAACAGGCCATTCCGGAACTCTCTTCTCCGTTGGTAGTAGAAGAAACAGCCAAGGGAATCCCAAAGGACGAAGAAACCGATGTCTTGATTCTAAAAGAAGAGAAAAAGGAAGAAGATGCAGAATGTAACGAGCCCGCTGAGGCAAAGAGTATGACACGTGAAGCACTACCTGAAACCACAGAGGACATAACAGAGCCAAATAAGGACCTCAATGCTCCAATTTCAGAAGAAAGCAACAAAACATTTGTTGAAAATATTTCCTCTCTCGCTGAGGTATCTGAGACGGAGACTGAGAAAAATATTCAGGAGAAAGATGGCCTCGTGGWTAGCAATTTTGACTCCGTGTCAGGTGAAGTGAGTCATGTAACAKGTTTGAAGGAAGGTGAGACAGAAAATGAGAAACAGAAAGAAAACATTGATGCTGCTCCGGAAGAGAAGGCTCAAACAACCATCTTAAAAGATGAAACGGCCTCAKAAKTTGAAGATATTGGTGTACAAGCAGAGGAAAATTGTGAATCAAAAGAGAAKTTGGAGKASCATATCCCAACAGCAKCAGATGARGGTGAAACATTCTYGRARGAAACCGARGCAGAAAAGGAGCAGATTCCAACAGGCGACTGTGAAACAAGCTTGAACGAAGCCGAAGCTGAAAAGGAGGAGCAGGGCAAAAGTACGGATATTGTTCCGGAAGAGAAGGGTCCGGAAACCATCTTAACAGATGCAACATCCTTGGACGTCGAAGATGTTGAGGTAAAAGCAAAGGACTATGCTGAATCAAAAGAGAACGTGGAGGAGCAGATTCCAATAGCAGCAGATGAAGAAAAACTTACTTATATTTCTCTTGAAGATATTGATGTACAAGCAGAGGAAAATTTCATTACACAAATGAATTTGGAGTACCCGATTCTAACAACCTCAGATGAACAAGAAACAGGCTCGGAAGAAACCAAAGCAGAAATTACGGCGCAGGTGAAAAGTATTGATATTGTTCCTGAAGAGAAGGCTCTAGAAACCATCTCAACAGCTGAGAYACCCTTGGTCGTYGAAGATTTAGGTGTAAAATCAGAGGAAAGTTTCAAATCAAAAGAGAATGTGGAGGAGCAGATTCCAACAGCAGCAGATGAAGAGGAAAAGAGCTTAGAGGAACATGCCATTCAGGAACTCTCTTCTCCGCTGGTAGTAGAAGAAGCAACTAGCGAAATCCCGAAGGAAGAAGAAACCTACACCACGCTTACCACACTTCTAGAAGAAGAGGAAAAGGAAGGGCATGCAACATGTAATGAGGCCACTGAGGAATATGCGGCTGAGATTGAGAAAAATATTCAGGAGAAAGATGGCGCCACACTTAGCAATTCTGAATCTGTGTCTGGAGAACCGACTCATGTAACAATCTTGAAGGAGTCTGAAACAAAGATCAAAATGCAGGGCAAAGACATTGATACTGTTCCTGAAGAGAGGGTTCAAGCAACTATCTTAGCAAATGAAACGGCCTTGGAAGTTGAAGATATTGATGAACAATTAAAGGAGAATTTTGAGTCAAAAGAGAACCTGGAGGAACAATTTCCTATAGCAGCAGATGAAGCTGAAATAGTCTTGAAAAAAGCCGAAGCAGAAAAAAAGGAGCAGATAAAAAATGCTGATATTGCTCATGAAGATGTTGATGTACAAGCGGAGAAAACTGTCAATTCAGAAGAGGACATAGATAAGCAGATTCCACCAATAGCAGATGAAGGCGAAACAAGCTTGAAAGAAGCTGAAGCAGAAATTAAGGAGCAG
Protein Sequence
- >MDP0000180420
MQTEAGDGYVSTGKFDITVDQCSPLQLKKSEGQEDQHPEPAKCFVEGETAHVESKNGVSECGNPLEPLLDPKVDKQEICVAERPQGDESNQVETGNPHRENGEKGSEEKEAVEATEKKSEHVESNGIVNAEAAEASRSKTNLDEHVQVISDQQDSGMGKSFAMVYEEKGPEVTSETKESAEDKLESASVLDDHEEKAGLGKEIQEKNIPDTPLPTKTEDIIEESPKEVKNQYETFEETPEASGTASEAVKEDENAECQVESPCMKREEGTLKKGETLDTGEASVVEEEVLNVSTVKCDEGVQGDGTNPTKDDKDVDTFTAKVVEDDDYTSAVTITVMSAKVTPNDEESSPQTLQKCDSGEELQHLRDVMPEETKTETSRENAKEITCTKEETTTQNTQEYLDEEKKEATENTNNLEDDNARDEVLDTAGAEQETGEHVVREIHTLAEPPQDFVDKETNEETSTEYQACTEAADLSINTAEKNLQEQAIPELSSPLVVEETAKGIPKDEETDVLILKEEKKEEDAECNEPAEAKSMTREALPETTEDITEPNKDLNAPISEESNKTFVENISSLAEVSETETEKNIQEKDGLVXSNFDSVSGEVSHVTXLKEGETENEKQKENIDAAPEEKAQTTILKDETASXXEDIGVQAEENCESKEXLEXHIPTAXDEGETFXXETEAEKEQIPTGDCETSLNEAEAEKEEQGKSTDIVPEEKGPETILTDATSLDVEDVEVKAKDYAESKENVEEQIPIAADEEKLTYISLEDIDVQAEENFITQMNLEYPILTTSDEQETGSEETKAEITAQVKSIDIVPEEKALETISTAEXPLVVEDLGVKSEESFKSKENVEEQIPTAADEEEKSLEEHAIQELSSPLVVEEATSEIPKEEETYTTLTTLLEEEEKEGHATCNEATEEYAAEIEKNIQEKDGATLSNSESVSGEPTHVTILKESETKIKMQGKDIDTVPEERVQATILANETALEVEDIDEQLKENFESKENLEEQFPIAADEAEIVLKKAEAEKKEQIKNADIAHEDVDVQAEKTVNSEEDIDKQIPPIADEGETSLKEAEAEIKEQ