New model in OGS2.0 | DPOGS201680  |
---|---|
Genomic Position | scaffold1459:+ 8024-13869 |
See gene structure | |
CDS Length | 4092 |
Paired RNAseq reads   | 2254 |
Single RNAseq reads   | 5074 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005382 (0.0) |
Best Drosophila hit   | ND |
Best Human hit | DNA (cytosine-5)-methyltransferase 1 isoform b (0.0) |
Best NR hit (blastp)   | DNA cytosine-5 methyltransferase [Bombyx mori] (0.0) |
Best NR hit (blastx)   | DNA cytosine-5 methyltransferase [Bombyx mori] (0.0) |
GeneOntology terms    | GO:0042127 regulation of cell proliferation GO:0046872 metal ion binding GO:0051573 negative regulation of histone H3-K9 methylation GO:0005721 centromeric heterochromatin GO:0010216 maintenance of DNA methylation GO:0016458 gene silencing GO:0008134 transcription factor binding GO:0051571 positive regulation of histone H3-K4 methylation GO:0005634 nucleus GO:0003677 DNA binding GO:0008270 zinc ion binding GO:0045449 regulation of transcription GO:0010628 positive regulation of gene expression GO:0005657 replication fork GO:0045892 negative regulation of transcription, DNA-dependent GO:0003886 DNA (cytosine-5-)-methyltransferase activity GO:0016568 chromatin modification GO:0016564 transcription repressor activity GO:0016740 transferase activity |
InterPro families    | IPR001525 C-5 cytosine methyltransferase IPR018117 DNA methylase, C-5 cytosine-specific, active site IPR022702 DNA (cytosine-5)-methyltransferase 1, replication foci domain IPR001025 Bromo adjacent homology (BAH) domain IPR002857 Zinc finger, CXXC-type IPR017198 DNA (cytosine-5)-methyltransferase 1, eukaryote |
Orthology group | MCL10217 |
Nucleotide sequence:
ATGGACAATGCTACACATTCAACAACTCGAAAGTCCGACAGAAAAGCTTCAACAAGAGAC
GGTCAACTAAAAATTACAAGTATGTTTGCAAAAAAGAGAAGTAGAAGTCCAATTGAAAGT
GCTGAGAAAGATGATACGAAAAAGCTAAAGATTAACACAGAGTCCCATGAACATGAAGTC
TTTAATGAAAAATCAAAAGTAGTAAATGGAATAAATAGTAAATCAGACGACGTCAATTCT
CAAGAAAGTGAAGAAACTTCACCAAACTTGGTTTCTATGAAATTAAACAACGAGAGAAGT
CTTGTAGATGAAGATGAAAACCATAATATTGAAGCTAAAACTGTTCCTGAGATTATTAAT
ACTATGAATGGTTGTAACCAAAACGGGGATGAAATGACTAGAGACGGCCTTGAAAACCAG
GTCCAACAAAATGCTATAGTAGAACAAGATCCACCAGAACCAAAACCAACTGCTAAAATT
CCAGATCAACATGGCCATTTATGTCCCATAGATGGAGGTCTTATTGAGAGTGATGTAAGG
ATATACATGTCGGGCTATCTTAAATCTATTTGTTCTGATTCACCTGATATTGATGAAGAA
TCTATAGCAGTCAAGGATGTCGGTCCCATCATAGAATGGTTTATTCATGGATTCGACGGT
GGTTCGAGAAATTGTATTACACTGTCGACGGAATTTGGTGAATACAATCTACTCAAACCG
AGCGCTGAATATACTCCCTTGATGGATAATTTGTATGAAAAAATATGGCTCAGTAAAGTA
GTCGTTGAATATTTAGAAGAATACCACTATCTTCAGCCAACTTATGAGGATTTGTTAGAA
GTTATAAGGGAACATTCCATACCAGATTTGGAGGACAAGAGGATGACCGAAGAAATGCTC
CACAAACATGCTCAATTTGTTTGTGACCAAGTTGTTAGTTTAGAAGCCGATGAAGACAAT
GAACCCTTGATAACCCTTCCCTGTATGAGAGAGTTAATAAAATTAATGGGCATTAAATTC
GGCAAGAGGAAAGTTCGCGCGAAAATCGACTACAAGAAGATTGACAAAAAAGCTTGGACC
AAAGCAACAACGACTCCGCTCGTTCAGAAGACATTCGAGCATTTCTTTGCAAACCAATTA
GATAAGACGAATCATGAGCTGGTGTTGAGAAGGAAACGATGTGGGGTTTGCGAAGCTTGC
CAATTACCTGACTGTGGAGAGTGCAATGCTTGTAGGGCCATGTTAAAATTTGGTGGTCAC
GGCCGCACCAAAAAGGCGTGCGTCAGACGATTGTGTCCCAACATGGCGGTTCAACAGGCT
GAAGATTCGGAGATAGAAGACGAAGAAGAATACCAACAGATGGCTGAAAAGCGACATCTC
GATAAAATCGATGACGCTCTACCCGTTAAATTAACTGGCGGAAGTAATAAGATCATTAGA
TGGATCGGCGACCCTGTTAAGGCCGACGCTACTAAAGTTTACTACGAGAAAGTTGAAATT
GACGGATCAGAACTGTCGCTAGGGGACTTCGTTATGGTCGAAACGTCACAATCGAATATC
CCCGCGTTAGTAGCCAGAGTCACGTATATGTGGAAGGAGAGTATTAATCCTAAGTCGGGT
TATTTCCATGCTGAAGTTTTCATTAGATCGTCTGACACCGTGTTGGGAGAGGTCGGTGAC
CCGCGAGAAGTGTTCTTGGGCGATAGATGCTGCCATGGCGCCCCTTTATCGTCTATATTG
AGAAAAGCGTTCGTCGAAAAGAAAGAAACACCGGCTGATTGGTTCAAGCTCGGCGGGAAG
GAAGTGGTCGACCACTTCTTTGAAGATGACGGCAAAACTTACTTTTATCAGAAATACTAT
GAAAGGTTCACGGCACGATTCGAAGATCTTCCGAACGATCCAGAATGTCCTAACGCATTA
CGAAAACACAGATTCTGTCCATCCTGTGAACGGAAGACGAGACGGGATGCTCGCGATATA
CCAAAAATATCTGGAAAACTAACAGAGAAGTCTGAAATTGTTAAAGAAGCTAACAGATTT
GAATGGACGACTATCAGGTGGCGGGACCACGATTACAAGAAGGGCTGCGGAGTGTTCTTA
AAACCTGGAACATTTAGATTCAAAAACTCCATGATCAATAGCAGTAATGGCATTAATAGG
GTTAAGTTAGACAAAGTCGACGAGGATATATATCCAGAGTATTATAGGAAGACTGATAAT
TATTTGCGAGGCTCGAATATAGACACCGGCGAGCCGTTCTGCGTCGGTTATATAGCAGCG
GTGACGGCGGCTAGCGAGGGGCCGCTGGTTATTCCACAGGATATCTACATTAAAGTCAAC
GTGATGTATCGGCCAGAGAACACCAACAACAGATTTCCGCATCACGAGGACGTCAATGTC
GTGTATTGGAGCGACGAAATCAAGGAGATATCGTTTTCAGCCGTCGTAGGACCTTGTAAT
ATATGTTATGTAGACAACATACCACAGCAAGATCACATCTACGACTGGTTAGAGAAGGAC
CCAAGTAGAGTATACTTCCGTATGGCATTTAACAAGAAATCCGGTCAAGTAGAGGATGTT
CCGCAGCACGTTAAATATGTCGGTAGGGGTGATAAGGGTAAAGATAAAGGTAAAGGGAAA
GGGAAGTCGAGCAAAGGCGCACAATCTACAGTCACGGTGAAAGTCGATGAAGTTAAGGTC
AGGCCTTTAAGGACTTTGGACGTGTTCGCGGGTTGCGGCGGTTTATCTGAAGGCCTTCAT
CGATCAGGTGTCGCCGAGTGTCGTTGGGCCGTCGAAAATCTAGAAGCGGCCGCTCATGCT
TATTCCATCAATAATAAAAACTGCATCGTGTTCAACGAAGATTGCAACGCCTTGCTGAAG
GACGCAATGGATGGGGCGACTCACAGTGCGGGGGGATTGAGAATTCCGATGCAAGGCGAA
GTGGAACTGCTCTGCGGTGGACCGCCGTGTCAAGGCTTCTCAGGGATGAACAGATTTAAC
TCGAGAGAATATTCCAACTTCAAAAACTCTTTAGTTGCATCGTATCTGTCGTTCTGCGAT
TTTTACAGGCCTAAATACTTCATCTTAGAGAATGTTAGGAATTTCGTCGCCTTCAAGAAG
GGCATGGTTTTGAAATTGACTCTCAGAGCGTTGTTGGATATGGGATACCAATGCACGTTC
GGTATCCTTCAGGCTGGGAATTATGGGGTACCGCAGACTCGTAGAAGACTCATTATACTA
GCCGCGGCGCCGGGCTACAAGCTTCCTTTATATCCGGAACCCACGCACGTTTTCAGCAGG
CGAGCTTGCTCATTAACAACCACCATAGACGGGAAGCGTTTCGTCACTAACATACAATGG
GACGAATCCGCGCCGAGACGGACTTGCACCATCCAGGACGCTATGAGCGATCTACCGCAG
ATATGTAACGGTGCGAATAGAATAGAAATCGATTACGGCTGTATGCCAGAAACTTACTTC
CAGAGACTTATTAGGAGCAGAGATGAGAGCGCCAAACTGCGGGATCACATATGTAAGAAC
ATGGCGCCGCTTATACAGGCACGTATGAGTAGAATACCAACTACGCCGGGCTCTGATTGG
AGAGATTTGCCAAATATATCCGTTGCACTATCTGATGGTACCAAATGCAAGGTGTTGCAA
TATCGTTACGACGACATCAAAAACGGTCGTTCCACCAGCGGTGCACTCCGCGGAGTCTGC
GCCTGTTCCGCCGGTGGAGTGTGTTCCGTAGCCGACAAGCAAGAAAACACGCTCATACCG
TGGTGTCTACCGCATACAGCCAACAGACATAACAATTGGGCCGGACTCTATGGGCGTATA
TCCTGGGACGGCTACTTCAGTACAACTGTGACGGACCCCGAGCCGATGGGCAAGCAAGGC
CGCGTGCTCCACCCCGAGCAAAACCGCGTCGTTTCTGTTCGCGAGTGCGCTCGCTCGCAG
GGATTCCCCGACACTTACCTATTCGCCGGCTCCATACAGGACAAACATCGACAGGTTGGC
AACGCGGTGCCGCCACCTTTAGGAGCGGCTTTGGGCAGAGAAATCAAGAAAGCGTTGAGT
GCCTTATCTTGA
Protein sequence:
MDNATHSTTRKSDRKASTRDGQLKITSMFAKKRSRSPIESAEKDDTKKLKINTESHEHEV
FNEKSKVVNGINSKSDDVNSQESEETSPNLVSMKLNNERSLVDEDENHNIEAKTVPEIIN
TMNGCNQNGDEMTRDGLENQVQQNAIVEQDPPEPKPTAKIPDQHGHLCPIDGGLIESDVR
IYMSGYLKSICSDSPDIDEESIAVKDVGPIIEWFIHGFDGGSRNCITLSTEFGEYNLLKP
SAEYTPLMDNLYEKIWLSKVVVEYLEEYHYLQPTYEDLLEVIREHSIPDLEDKRMTEEML
HKHAQFVCDQVVSLEADEDNEPLITLPCMRELIKLMGIKFGKRKVRAKIDYKKIDKKAWT
KATTTPLVQKTFEHFFANQLDKTNHELVLRRKRCGVCEACQLPDCGECNACRAMLKFGGH
GRTKKACVRRLCPNMAVQQAEDSEIEDEEEYQQMAEKRHLDKIDDALPVKLTGGSNKIIR
WIGDPVKADATKVYYEKVEIDGSELSLGDFVMVETSQSNIPALVARVTYMWKESINPKSG
YFHAEVFIRSSDTVLGEVGDPREVFLGDRCCHGAPLSSILRKAFVEKKETPADWFKLGGK
EVVDHFFEDDGKTYFYQKYYERFTARFEDLPNDPECPNALRKHRFCPSCERKTRRDARDI
PKISGKLTEKSEIVKEANRFEWTTIRWRDHDYKKGCGVFLKPGTFRFKNSMINSSNGINR
VKLDKVDEDIYPEYYRKTDNYLRGSNIDTGEPFCVGYIAAVTAASEGPLVIPQDIYIKVN
VMYRPENTNNRFPHHEDVNVVYWSDEIKEISFSAVVGPCNICYVDNIPQQDHIYDWLEKD
PSRVYFRMAFNKKSGQVEDVPQHVKYVGRGDKGKDKGKGKGKSSKGAQSTVTVKVDEVKV
RPLRTLDVFAGCGGLSEGLHRSGVAECRWAVENLEAAAHAYSINNKNCIVFNEDCNALLK
DAMDGATHSAGGLRIPMQGEVELLCGGPPCQGFSGMNRFNSREYSNFKNSLVASYLSFCD
FYRPKYFILENVRNFVAFKKGMVLKLTLRALLDMGYQCTFGILQAGNYGVPQTRRRLIIL
AAAPGYKLPLYPEPTHVFSRRACSLTTTIDGKRFVTNIQWDESAPRRTCTIQDAMSDLPQ
ICNGANRIEIDYGCMPETYFQRLIRSRDESAKLRDHICKNMAPLIQARMSRIPTTPGSDW
RDLPNISVALSDGTKCKVLQYRYDDIKNGRSTSGALRGVCACSAGGVCSVADKQENTLIP
WCLPHTANRHNNWAGLYGRISWDGYFSTTVTDPEPMGKQGRVLHPEQNRVVSVRECARSQ
GFPDTYLFAGSIQDKHRQVGNAVPPPLGAALGREIKKALSALS