Information report for Cla97C11G206740
Gene Details
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Functional Annotation
- Encodes a cytosine methyltransferase MET1. Required for silencing of FWA paternal allele in endosperm. Two lines with RNAi constructs directed against DMT1 have reduced agrobacterium-mediated tumor formation.
Homologous
- Actinidia chinensis: CEY00_Acc21305
- Beta vulgaris: BVRB_8g198470
- Cucumis melo: MELO3C026448
- Cucumis sativus: CsGy5G010480
- Daucus carota: DCAR_009626
- Glycine max: Glyma.04G187600, Glyma.06G178200
- Gossypium hirsutum: Gohir.D04G042500
- Juglans regia: Jr09_06540
- Lactuca sativa: gene-LSAT_7X75121
- Manihot esculenta: MANES_13G119400
- Medicago truncatula: Medtr6g065580
- Nicotiana attenuata: A4A49_19701
- Populus trichocarpa: POPTR_004G134000v3, POPTR_T046100v3, POPTR_018G138000v3
- Prunus avium: Pav_sc0000113.1_g130.1.mk
- Vitis vinifera: VIT_07s0130g00390, VIT_07s0130g00380
Sequences
CDS Sequence
- >Cla97C11G206740
ATGGCGAAGAAGACTAGGAGCCAATTAATGGTTACATCTAATGATCTAAAAAAGTCGGACTCTAAAAATGTGCAAGCAGTCAAACCGAAGCAGAAGAGAAATAGGTCGGAAACTGGTGAACAGGTAGTCGGGGTTAGGAAAATGCCAAAGCGTGCTGCTGCCTGTTCAGATTTTAAGGTCAAAACTATTCAATTACCAGAGAAATCTTCTGTTATTGAATGCAAAAGGGAGGTGGCAGTGGAAGACGAGATAGCTGCGGTTGCCTTGACAACGCTGGGGCAGGATGATTCTCGGCCAAATAGGAGACTAACTGAATTCACATTCCATGATGAGGATGGAAAGCCACAGGCTGTTGAAATGTTAGAAGTAAACGATTTGTTCATTTCTGGTATTATCTTGCCTTTTGAAGACACCCCTGATAAAGAGAAAAATAAGGGTGTTAGGTGCGAAGGATTTGGGCGGATTGAGTCTTGGACAATATCTGGTTATGAAGATGGCTCACCAACTATATGGATCTCCACCGATATAGCTGATTATGATTGTGTTAGGCCTGCAGGTGGATACAAAAAGCTATATAATATCTTCTATGAAAAAGCCAATGCCTGTGTGGAGGTCTACAAGAAATTGGCACGGACTTCTGGTGGGAATCCAGATTTGTCATTGGAGGAATTGCTTGCTGGAGTAGTACGCTCCTTGAACAGTAGTAGAAATTTTCCTGCTGGGATGTCTGTCAAAGATTTCATCTTTTTGCAGGGGGAATTTATATATAATCAACTTATTGGTTTAGATGATACATCCAAGAAAAATGACCAAATTTTCACAGACTTGCCTGTGCTTTGTGCCCTAAGGGATGAAAGCAGAAAACAAGGGAACTTGCTACCAAATGCAGGCACATTTGATGGGTTCACAAATCTCGGTTTGAAGATTAGAGATGGCGAGCAACTCAATCCTCCCAATATACCTGGATCTGGAGCCGAGGAAGATGAGGATTTGAAATTGGCTAAGTTGCTTCAAGAAGAGGAGTATTGGCGATCTGCAAAGCAAAGAAAAAATCAGCGTTTTACTACTTCATCAAACAAGGTCTACATCAAAATCAATGAGGATGAAATTGCAAATGACTATCCTCTACCTGCCTTTTACAAAACTACAAAAGATGAAATGGATGAATATGTTATCTTTGACGGGGATATGGATATATGTGATCCTGACGACCTTCCTCGAAGCATGCTTCATAACTGGTCTCTTTACAACTCTGATTCCCGACTTATTTCTTTAGAACTGCTTCCAATGAAGCCTTGTGATGACATTGATGTGACAATATATGGGTCAGGGATCATGACTGCTGATGATGGAAGTGGTTTCTGTCTTGATGCTGATACTAGTCAGTCATGTTCGACTCAAATGCAAAACACGGATGGGATTCCAGTTTATTTGAGTGCAATAAAGGAGTGGATGATTGAATTTGGATCTTCAATGGTGTTCATATCAATTCGCACTGACATGGCCTGGTATCGGTTGGGAAAGCCATCCAAGCAGTATGCTCCATGGTATGAAACAGTACTAAAAACTGCAAGGCTTGCAATAAGCATTATTACCTTACTGAAGGAGCAGAGCCGTGCCTCAAAGCTTTCTTTTGCAGATATTATCAAAAAAATTTCTGAATTTCATAAGAACAATCCTGCTTATATCTCTTCCACCCCATCAGTTGTTGAGAGGTATGTGGTAGTACATGGACAGATAATACTGCAAACCTTTTCTGAATATCCAGATGATATGATCCGGAAGTGTGCATTTATAACTGGGCTTAGCGATAAAATGGAGGAAAGGCATCATACCAAGTGGTTGGTAAAGAAGAAGGCTGTTCTAAAGCAGGAGGCAAATATGAATCCGAGAGCGTCAATGAAACCTGTAACTTCGAAAAAGGCTATGCCTGCTACTACAACTAGATTGATAAACAGGATTTGGGGAGAATTTTACTCAAATTATTCGCCAGAAGACTTGAAAGAGGCAGACAATAATGAAACAAAAGAAGATGAACTGGAAGAAGACGAGGAGGTTGAAGATGAAGAATTGGAAGAGGTTGAAGAGGAAGACGGTCAAGTGGATTTGAAAATTAAGGAAACAAAGCCTGTTGTAAAGCCTGCAAATGCGAAGCTTTCTGAGGGAAAAAATAAATGGGATGGTGAAATTGTAGGCACAACAAGTCAAGGCTATCCTCTTTACAAACAAGCCATTGTCCATGGAGATTTGGTTGCTGTGGGTGGTTTTGTGTCTGTGGAAACAGATAATGTACATGACTTGCCTGCCATATATCTTGTCGAGTACATGTATGAAAAATCCAATGCAAGAAAAATGGTTCACGGTAGACTGATGGTTAGAGGATTGGAGACTATTTTAGGCAATGCTGCCAAGGAGCGGGAGGTTTTTCTTACCAATGATTGCCTGGATTTTGAGTTGAATGAAATTAGAGAAAAAGTGGTTGTAGAGAGTTGCATGAGGCCTTGGGGACATCAGCACCGCAAGGCTAATGTCAAGAAGGATAAGGCTGACGAGGAAAGAGCAGAGGAGAGGAAACGCAGAGGACTGCCTATGGAGTTCTATTGTAAAAGCTTATATTGGCCTGAAAAAGGTGCTTTCTTTTGTCTTCCAAAGGAGACCATGGGCCTGGGAACTGGAGATTGCCATGCTTGTAAATTAAAGGAAACCCAAGGAGAGGACACCATGAAGTTGCATTCTTCTTTGATGAGCTTCACGTACAGGGGAACTGACTATTCTGTTAACGATTATGTTTACTTAGCTCCTCATCATTTTGGAACTGATGAAAGAGACATTGAGATATTCAAGGGAGGGAGAAATGTGGGCCTCAATGCTTATGTTGTTTGTCAATTGTTGGGAATTGAATCACCCAAGGGCTCAAAGCAACCTTCTCCAGTATCAACTATGGTCAAAGTTAGGAGATTTTTTAGACCAGAGGACATTTCAGTAGAAAAGGCATACTGCTCAGATATTAGAGAACTTTACTACAGTGAAGAAACAACAACAAAGCCTGTATCTGCCATAGAAGGAAAGTGTGAAGTACGAAAAAAGCAGGATATCCCAATGGCAAACTCCCCTGCTATCTTTGATCACATCTTCTTTTGCGAGCATCTCTATGATCCAGAGAAGGGAGCTATAAAAAAGTTGCCAGCTAACGTGAAACTAAGTTCCTCTTCCGAAAGGCAAATTAGTGATGCTGCACAAAGAAAGAAAAAAGGGAAGTGTAAAGAAGGAGAAAGTATACCTGATGAAACTGAGAGCAAAAAAGATTTGCCACTTGAAAATCGTTTGGCTACTCTGGATATATTTGCTGGATGTGGTGGCTTATCTGAGGGTCTGCAGCAAGCAGGTGTTTCAATTACCAAATGGGCAATTGAATATGAAGAGCCAGCGGGTGAAGCATTTAGTCTCAATCATCCAGAGGCATTGACATTTGTGAATAATTGCAATGTGATCCTAAGGGCTGTCATGAAAGCATGTGGTGATGCAGATGATTGTATATCAACTTCTGAAGCCATTGAACTAGCAGAAAAACTCGATGACAAGGAGATCAATAATCTGCCTCGTCCAGGACAAGTTGAATTCATCAATGGAGGACCTCCTTGTCAGGGTTTTTCTGGAATGAATCGTTTTAATCAGAGTACTTGGAGTAAGGTCCAATGTGAGATGATTTTGGCATTCTTATCCTTTGCCGAGTATTTTCGTCCAAAGTATTTTCTTCTGGAGAATGTGAGGAATTTTGTTTCATTCAATAAAGGGCAAACTTTTCGCCTTACCTTAGCTTCACTTCTTGAGATGGGATATCAGGTAAGATTTGGTATTCTAGAGGCTGGGGCATATGGAATCTCTCAATCTAGAAAACGTGCATTCATATGGGCAGCTTCTCCCGAGGAAATTCTACCAGAATGGCCAGAGCCAATGCATGTCTTTGTTAGCCCGGAGCTCAAGATTTCATTGTCTGGTAATACTCGGTATGCTGCTGTTCCTAGTACGGCAGGAGGTGCACCTTTTCGTCCAATTACTGTCAGAGATACAATTGGAGATCTACCAGCTGTTGGAAATGGGGCTTCTGTGACAACAATGGAGTACAAGAGCGAACCGACATCTTGGTTCCAGAAGAAGATTCGAGGAGATGTCCTTGTCTTGAATGATCACATATCAAAAGAAATGAATGAGCTAAATCTTATTAGATGTCAAAGAATTCCAAAACGCCCAGGTTCTGATTGGCGCGATCTTCCAGATGAGAAGGTTCGGTTGTCAACTGGACAAATGCATGACTTGATACCCTGGTGCCTGCCCAACACAGCCAAGAGGCACAACCAATGGAAAGGCTTGTTTGGCCGGTTGGATTGGGAAGGGAACTTCCCCACTTCAATTACTGACCCGCAACCAATGGGCAAGGTTGGAATGTGTTTCCACCCCGAGCAGGATAGGATACTTACTGTCCGTGAATGTGCTCGATCTCAAGGATTCCCAGACAGCTACAAATTTGCTGGTAATATTCAACACAAACACAGGCAAATTGGAAATGCTGTTCCTCCTCCTTTGGCATATGCTTTGGGGAGGAAACTCAGGGAAGCAATAGAGATGAAAAGCTCCAAATCAAATCAGCGTTGA
Protein Sequence
- >Cla97C11G206740
MAKKTRSQLMVTSNDLKKSDSKNVQAVKPKQKRNRSETGEQVVGVRKMPKRAAACSDFKVKTIQLPEKSSVIECKREVAVEDEIAAVALTTLGQDDSRPNRRLTEFTFHDEDGKPQAVEMLEVNDLFISGIILPFEDTPDKEKNKGVRCEGFGRIESWTISGYEDGSPTIWISTDIADYDCVRPAGGYKKLYNIFYEKANACVEVYKKLARTSGGNPDLSLEELLAGVVRSLNSSRNFPAGMSVKDFIFLQGEFIYNQLIGLDDTSKKNDQIFTDLPVLCALRDESRKQGNLLPNAGTFDGFTNLGLKIRDGEQLNPPNIPGSGAEEDEDLKLAKLLQEEEYWRSAKQRKNQRFTTSSNKVYIKINEDEIANDYPLPAFYKTTKDEMDEYVIFDGDMDICDPDDLPRSMLHNWSLYNSDSRLISLELLPMKPCDDIDVTIYGSGIMTADDGSGFCLDADTSQSCSTQMQNTDGIPVYLSAIKEWMIEFGSSMVFISIRTDMAWYRLGKPSKQYAPWYETVLKTARLAISIITLLKEQSRASKLSFADIIKKISEFHKNNPAYISSTPSVVERYVVVHGQIILQTFSEYPDDMIRKCAFITGLSDKMEERHHTKWLVKKKAVLKQEANMNPRASMKPVTSKKAMPATTTRLINRIWGEFYSNYSPEDLKEADNNETKEDELEEDEEVEDEELEEVEEEDGQVDLKIKETKPVVKPANAKLSEGKNKWDGEIVGTTSQGYPLYKQAIVHGDLVAVGGFVSVETDNVHDLPAIYLVEYMYEKSNARKMVHGRLMVRGLETILGNAAKEREVFLTNDCLDFELNEIREKVVVESCMRPWGHQHRKANVKKDKADEERAEERKRRGLPMEFYCKSLYWPEKGAFFCLPKETMGLGTGDCHACKLKETQGEDTMKLHSSLMSFTYRGTDYSVNDYVYLAPHHFGTDERDIEIFKGGRNVGLNAYVVCQLLGIESPKGSKQPSPVSTMVKVRRFFRPEDISVEKAYCSDIRELYYSEETTTKPVSAIEGKCEVRKKQDIPMANSPAIFDHIFFCEHLYDPEKGAIKKLPANVKLSSSSERQISDAAQRKKKGKCKEGESIPDETESKKDLPLENRLATLDIFAGCGGLSEGLQQAGVSITKWAIEYEEPAGEAFSLNHPEALTFVNNCNVILRAVMKACGDADDCISTSEAIELAEKLDDKEINNLPRPGQVEFINGGPPCQGFSGMNRFNQSTWSKVQCEMILAFLSFAEYFRPKYFLLENVRNFVSFNKGQTFRLTLASLLEMGYQVRFGILEAGAYGISQSRKRAFIWAASPEEILPEWPEPMHVFVSPELKISLSGNTRYAAVPSTAGGAPFRPITVRDTIGDLPAVGNGASVTTMEYKSEPTSWFQKKIRGDVLVLNDHISKEMNELNLIRCQRIPKRPGSDWRDLPDEKVRLSTGQMHDLIPWCLPNTAKRHNQWKGLFGRLDWEGNFPTSITDPQPMGKVGMCFHPEQDRILTVRECARSQGFPDSYKFAGNIQHKHRQIGNAVPPPLAYALGRKLREAIEMKSSKSNQR