| New model in OGS2.0 | DPOGS205950 |
|---|---|
| Genomic Position | scaffold20:+ 240269-249358 |
| See gene structure | |
| CDS Length | 4209 |
| Paired RNAseq reads | 1202 |
| Single RNAseq reads | 3521 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA002836 (0.0) |
| Best Drosophila hit | lethal (3) malignant brain tumor, isoform B (4e-40) |
| Best Human hit | lethal(3)malignant brain tumor-like protein isoform I (4e-52) |
| Best NR hit (blastp) | PREDICTED: similar to L(3)mbt-like 3 (Drosophila) [Nasonia vitripennis] (4e-132) |
| Best NR hit (blastx) | PREDICTED: similar to l(3)mbt-like 3 isoform b [Apis mellifera] (3e-125) |
| GeneOntology terms | GO:0000793 condensed chromosome GO:0007088 regulation of mitosis GO:0016481 negative regulation of transcription GO:0031491 nucleosome binding GO:0035064 methylated histone residue binding GO:0006355 regulation of transcription, DNA-dependent GO:0005730 nucleolus GO:0042393 histone binding GO:0016564 transcription repressor activity GO:0000785 chromatin GO:0031493 nucleosomal histone binding GO:0005634 nucleus GO:0003682 chromatin binding GO:0008270 zinc ion binding GO:0005515 protein binding GO:0051726 regulation of cell cycle GO:0016568 chromatin modification GO:0046872 metal ion binding GO:0005654 nucleoplasm GO:0045652 regulation of megakaryocyte differentiation GO:0032093 SAM domain binding GO:0003700 sequence-specific DNA binding transcription factor activity GO:0030097 hemopoiesis GO:0042802 identical protein binding |
| InterPro families | IPR004092 Mbt repeat |
| Orthology group | MCL10918 |
Nucleotide sequence:
ATGGAGAGACAGCAGTGTAATACACTTCAAAACTTTGATGACCCGAAAACAGAAATTTTA
AAAAAGAGGCTATTAAAGGCGAGCAGCACCTCAACAAGCAGTAACTTATCTCAAAGTAAC
TCCCATAATGTGCTATTAAACACGTTACGCGCGCCAAGCTCGAGCAGTATGATCGTATCC
TCGGTGCAAGCGCCACAAAACTCAATGCCAATTACTCACAATCTTGTGACACATTCTATA
GCCCCCGTCAAAATACACACTAACAATTCCCCGTACCCCTTGCAGCTTTCTACAGTCCAT
GTGCCTGTCCAGATACCAGGTTCCACTTCTAATATAAATGTCCCGGTTCAGCTCTCTAGC
ACTACAACTAGCATGCCTCTACAAATAGCTCCGGTTAGTCTCCCTCTGCAAGTTTCTGGT
ACCACTAGTGTCCCCGTCCAACTGCCAGCTGGGGATACTATCAATGTACCATTGCAGATT
CCAGCCTCTAACCAAAACATTCAGTTGGGTGGCTCCAGCTTACCGTCTATGCCTCTTCTT
CAAACCACCACCCAGCCTCTTCACAGCTCCATAATCCATGTACATATGGGTAACCGAGAT
GGCACAGACATGAATCTTTCCAACACACAGCTCCAAATGCCAGATTCCGTCAAAATGAAC
ATCCCAACGTCTGTAGCTCAAATGCAAATGGGATCAAATTCCGCAGTGATGCAGATACCT
AACTCATCCAATAACTCAATACAACTCACCCTACCCAACTCCGGAAACACTGCTCCGGTT
ACATTACGAGGTGCTGCCAGAAGTGTTCCTCATGTTGTTTACATTCAGACACCAACAGGA
TTGAAACCTGTGACCAGCACGGAAGTGATAAGTCAGGCCAGCACCAGCGGCAATCCACCA
CAGATCATTGTTCGGAGACCTGTAACAAACAACTCAAACATACATTTGATATCAAATGTT
AGCACTAAGCCTAACATCGCACCTAAAGTGGCGGGTCAACACAAGTCTTCTATATTAGCC
CCAGCCAACTCAGCCCAACCTATAGTCATCCAGAAACCTAAAGCTACGGATAAAATGATG
GTGCCTGTCAGTATAGCCCCCGGAGGACAACCCAAACAAGCCATAGCCTACCTCAGCTCC
GTCAAAAAGCCCACCAAGAATATATCAGAGAGCCAATCCATCCTAATATCTAGTAATCAA
AGTAATGTGAATTCAAATAATCAAAAATTATATCTTACACCAATGAATGTTCCTAAAATA
CAGAATACTAAATTTATTTTACCCGTTACTTTACCAGCGACCATGGCATCCAAGGGACCC
ATAATAAATCTTCAGATTGCGAACGGCCAGATACAGAATGACCCGCAAGGAAACATCACC
GTCATGAGGGACACGACCCTGGAAGCGTCCGACTTGCCGCCACTACAGCCTCTGGCTAAG
ATCATAGCCCTCAACGGCAAAGACAACTGTGTGCCTCACAGCCCAAAGACGGAAAACGGG
TTCACGCTCTCCATCCCGGGGTCGAGGGCGGAGCCCACGGGCGAGCAGGGGGAGTACACG
CTCTCCATACCGGAGACCAACGCCTCGATGAACGACGACATCTACACCGTGTCCATCGCG
GACGAAGAAGACGGCCACACCAGGGAACAGTCCTTCACCCTGGCCATCCCGGAGAAAGGC
AAGAGCCTTCTCAACAGGACGGACATGGTGCCGCTGACCACCGCCGCGCCGGCCATCCTG
AGGCGATCCAACTCCGACAACAGCGACAGGAAGACGGTTCACGCCAACATCAAGCGTCGC
GTGTCGCTCTGCACCGACAACTCCTCCACCAAGAGTTTTAAGTTCCCGCTGCCGCAGCTC
AGGGTCAACAAGGCGGAGGAGCGCGCGGACGGAGACCTCAACGACGACCACAGAGTGCCC
TCGCTGTTCTGTGACGAGAAATTGGACAAAGACTTGGAAGCCAAAGTGAATCTGGTGGAC
TCCGACTCTGAAGATAAGATGGACGAGAAGCCTAACGACGTCATCTATTACCAGAAAATC
AATTCGTTTGACATCAACGACGCACGAGGCAAGGCTTACGCGGACCCCACGGAGGAGGAG
CTCCCCGGTCTGCTCTGGAACAACGGCATAGCTCAGCTGAGAGGTAGCAACCTGCACTTC
CAGGCTAACGAATTCGATCTGATCGACCTCGTGGACGAGAAGACGCAAAATGTAGTGGGA
AACTCCAACGTGAAGTATCACACGCCGTTGAAACAGCGAATGGAGAGGAATAGGGATAAG
AAACCGACCTCCCCCGAGGACCTGTACCGCTGTGACGGCTGCGGCTGTCACGGGATGGCC
GCGGAGTTCATCACTCCCAACTTCTGTAGCTCCACCTGCCAGAGCGAAATGCAGAAAGCG
ACCCAGAAAAGAAAAGACAAGGAGAGAGCCGAACTGTCCAAGAAGAGAAACAAAATGAAG
AAACTGCTCATGAGGAAACAACTGTCAGATTCGGAGCTCATGCAGGACGGCAAAGACGAG
AAAGTGGATCTGAAGCGGTACGACTCCATGAACAGCGACCTGCAGATCTCGGAGGCGACC
CTCATCAAGATGAGCGAGGAGCTGGCCGAGAACGACAAGTATCCCTGGATGTGCGGCAAG
AACGGCTTCTCGTGGATGAGGTACCTGGACGTGTGCAAGGCCAAGGCGGCGCCCGTCAAG
CTGTTCAAGGACCCCTTCCCCTACAACAAGAACGGCTTCAAGGTGGGCATGCGGCTGGAG
GCCGTGGACCCCGAGCACCCGGCGCTGTTCTGCGTGGTGTCGGTGGCCGAGGTGCAAGGC
TACCGCATGAGGCTGCACTTCGACGGCTACCCGGACTCGTTCGACTTCTGGGTGAACGCG
GACTCGGCGGACATCTTCCCGGCCGGCTGCCGCCGGCCGGTGGTGTGCGCCGCCACGGTC
GCCGACGTGCGAGAGAGGAGGCTGCTCGTGCACTTCGACTCCTGGGACGACGCCTACGAC
TGCTGGCTGGACCCCGCCTCGCCCCACATACACCCCGTGGGCTGGGCCGAGCGGAACGGG
ATCGCCATCACCCCACCCAACTACTACAAGGAGTGCGAGTCATTTTCATGGGAGACCTAC
TTGTCGGAGACCATGGCGTGTGCGGTGCCGGCGAGGGCCTTCAAAACTCGTCCGCCGGTG
CCCTTCAAGCCTGGCATGAAGCTGGAGGTCGTCGATAGAAGGGTACCGTTCCTGATCCGC
GTGGCGACCATCAGCGCGGTGAAGGAGCACCAGGTCCGCGTGTCCTTCGACGGTTGGCCG
GACGAGCTGTCCTGCTGGCTGGACGACGACTCGCCCGACTTGCACCCCGTGGGCTGGTGT
CTCAAGACGGGCCATCCGCTGGAACCGCCGCTCACGGCGGAGGAGCTCCGTATCCCCGGG
CCCTGCGGTGTTGGCGGATGTCGCGGACTGGGGTCCGTCCACGGCGGGGGTCTCAAGCAG
CACGCCGCCGCCTCCGCCTGCCCCTACCGCGCGTTAAGCAAGTCCAAATCGATATCGACC
AGCACGCCCACGAGCGACGCGCCCAAAGAGAAGCTGCCGCGCGGCCGCCCGCCCAAGCAC
AAGAGGGTGGAAGCGGTGACCAAGAACGATCCCGTGTCGGACGACGAGTCCCTGTCCAGC
GGGGGCTGCAAGCGGTGGCGCGGCAGCTGCAGCGAAGACATGCGGGCGCTGCGGTCGGCC
TCCTCCCGCCGCCCGCCCTCCACGCAGTCCTCGCACCACCTGCCCAACCACCCCGCGCCC
TCCCGCGCACTCCTCGCCAGGCACGTCGCCGACTTGGACCTGCCGTCGGACCCCAGCACG
TGGACCCAGAAGGAGGTGTCGTCGCTGCTGTCCCGTCTGGCGGGCGTGGCTGCGGGCGCG
GCGTCGTCGGCCGCTCGCCTGTCGGGCACCTCCCTGCTGATGGCGTCCTGCGAGGAGCTG
GTGACGTGCCTGCGCCTGCGCCTGGGGCCCGCCGTCAAGGTCGACGGTGACATGTCCCTC
CCTTCTCTGTTACAAGAACTGTCTAATAATTTTTACACTATTGTTAATGTAATCGCTGGT
GCAGTTCCACGGATACCTGACATGATGGAGGATGGAGTGCAGCCTGCGGAAACAGACCAA
AGACAGGAACATGTATATATCAGAGTATCCCATTCTTTGGACGAGTCATATATTGTATAT
AGTATGTAA
Protein sequence:
MERQQCNTLQNFDDPKTEILKKRLLKASSTSTSSNLSQSNSHNVLLNTLRAPSSSSMIVS
SVQAPQNSMPITHNLVTHSIAPVKIHTNNSPYPLQLSTVHVPVQIPGSTSNINVPVQLSS
TTTSMPLQIAPVSLPLQVSGTTSVPVQLPAGDTINVPLQIPASNQNIQLGGSSLPSMPLL
QTTTQPLHSSIIHVHMGNRDGTDMNLSNTQLQMPDSVKMNIPTSVAQMQMGSNSAVMQIP
NSSNNSIQLTLPNSGNTAPVTLRGAARSVPHVVYIQTPTGLKPVTSTEVISQASTSGNPP
QIIVRRPVTNNSNIHLISNVSTKPNIAPKVAGQHKSSILAPANSAQPIVIQKPKATDKMM
VPVSIAPGGQPKQAIAYLSSVKKPTKNISESQSILISSNQSNVNSNNQKLYLTPMNVPKI
QNTKFILPVTLPATMASKGPIINLQIANGQIQNDPQGNITVMRDTTLEASDLPPLQPLAK
IIALNGKDNCVPHSPKTENGFTLSIPGSRAEPTGEQGEYTLSIPETNASMNDDIYTVSIA
DEEDGHTREQSFTLAIPEKGKSLLNRTDMVPLTTAAPAILRRSNSDNSDRKTVHANIKRR
VSLCTDNSSTKSFKFPLPQLRVNKAEERADGDLNDDHRVPSLFCDEKLDKDLEAKVNLVD
SDSEDKMDEKPNDVIYYQKINSFDINDARGKAYADPTEEELPGLLWNNGIAQLRGSNLHF
QANEFDLIDLVDEKTQNVVGNSNVKYHTPLKQRMERNRDKKPTSPEDLYRCDGCGCHGMA
AEFITPNFCSSTCQSEMQKATQKRKDKERAELSKKRNKMKKLLMRKQLSDSELMQDGKDE
KVDLKRYDSMNSDLQISEATLIKMSEELAENDKYPWMCGKNGFSWMRYLDVCKAKAAPVK
LFKDPFPYNKNGFKVGMRLEAVDPEHPALFCVVSVAEVQGYRMRLHFDGYPDSFDFWVNA
DSADIFPAGCRRPVVCAATVADVRERRLLVHFDSWDDAYDCWLDPASPHIHPVGWAERNG
IAITPPNYYKECESFSWETYLSETMACAVPARAFKTRPPVPFKPGMKLEVVDRRVPFLIR
VATISAVKEHQVRVSFDGWPDELSCWLDDDSPDLHPVGWCLKTGHPLEPPLTAEELRIPG
PCGVGGCRGLGSVHGGGLKQHAAASACPYRALSKSKSISTSTPTSDAPKEKLPRGRPPKH
KRVEAVTKNDPVSDDESLSSGGCKRWRGSCSEDMRALRSASSRRPPSTQSSHHLPNHPAP
SRALLARHVADLDLPSDPSTWTQKEVSSLLSRLAGVAAGAASSAARLSGTSLLMASCEEL
VTCLRLRLGPAVKVDGDMSLPSLLQELSNNFYTIVNVIAGAVPRIPDMMEDGVQPAETDQ
RQEHVYIRVSHSLDESYIVYSM