New model in OGS2.0 | DPOGS201479  |
---|---|
Genomic Position | scaffold2016:+ 32112-46803 |
See gene structure | |
CDS Length | 3033 |
Paired RNAseq reads   | 1135 |
Single RNAseq reads   | 2751 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA002625 (0.0) |
Best Drosophila hit   | CG4065, isoform B (7e-128) |
Best Human hit | N-alpha-acetyltransferase 35, NatC auxiliary subunit (4e-159) |
Best NR hit (blastp)   | PREDICTED: similar to MAK10 homolog, amino-acid N-acetyltransferase subunit [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to MAK10 homolog, amino-acid N-acetyltransferase subunit [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0007275 multicellular organismal development GO:0005737 cytoplasm GO:0043066 negative regulation of apoptosis GO:0032006 regulation of TOR signaling cascade GO:0008284 positive regulation of cell proliferation GO:0048514 blood vessel morphogenesis GO:0001756 somitogenesis |
InterPro families   | IPR007244 Mak10 subunit, NatC N(alpha)-terminal acetyltransferase |
Orthology group | MCL14069 |
Nucleotide sequence:
ATGAAAATGAAAGTGAATACGTTATTGTTCTTTATTGTGTGTGTGGTCATGTGTGTGACA
GAAGGATACGCCTACAAAAACTACAAATCTTTTTTTGAAACTGTTAAGGAGGATAACTCT
ATGGACGTCTCAGATTTCTCTGTTTATTACAATATTGAAACAAATGAGACCATTAAAAAA
ATGATGCCCAGACCTTGGTACAAGCCTGGTTGGTTGCTTAGACTTCCGTTTAGAGGCGGT
CCTTGTGAATGTGACGGCTATCAATGTATTTGCTGCACGGGTGTTCGGATTCAAGCTTTT
AAATTTGACAGAAGAACATGTGCGAAACTTATATATGAACCACAAAATTCTACCTTGGAT
TTAGAAGTGGTCATGAACAATGCAAGTGTCTTCAAGAACACTTATTCAAGCAGAAACCTA
CCACCATTTTGTATTCCTGTCCCAGTGCCCTACCTACCACCTGGGTTGGTAGACATGTGT
GTTAGACTATTTGACGTAACATTCGTTGATCAAAAGTTACACGTCTGTATGGATATGGAC
ACGAGGATCGACAAAGCTCCAGTAGTGATACTCCATTTCGATTGTATGGACATGGGTTCA
GGAGGAGTGGGTTTATCAAAACCAGGAGGAACAACTATTACATCACACGACTCTATAACG
GCAACAGAAGAACCGATACAATTAGACAGTGATGTTTACGACGCAGTTACTGAACCTGTT
GAAACAACTACAGAAATATTTCAAAATAGTATAAAAAAAAATCCATTGAAATACTTTGCA
GGAATAAAAACTGCATCAGTGTGCCAAAATTTAAGAGAGGGTTTGAAGCATCACATTAAA
TTAAGCAACTGGTTGTTTTACATGGTTTGTGATTCCGGATGGAATATTAAACCAGCGTAT
CATCAAAACGTGACAATGGATTCCATGCCAACAGCTCCAGAAGTTATTTATAATTGGGTT
GATATAACATCTGATTTCTTTAAATATATTCAAGATTTGCAACTAGGTGAGCTGCTTCAC
GATGGCCATCTTTTTGGCCTCTTTGAAGCTATGTCAGCTATCGAGATGATGGATCCTAAA
ATGGACACTGGGATGTTGTGTAATAGAGGCAACCCCAAACCTATCAACTTCCAGCAGGCT
GTGGCGTGTGGTAAATTAAAAATTGATAATCTTGAGCCATCTGAGATCATAGGGATCATT
GATGCTACCATGGCCTGTATTGTTTCCTGGTTGGAGGGTCATTCACTGGCTCAGACCGTT
TTCACAAACCTGTATTTACATCAGCCTCACTCTATAATAAATAAAACTTTAAAGGCATAT
TGCATTGCTGTGTATAAATTACTGGATTGCATCAAAGATTGCATTAATAAAGCGCAAGTA
TTTGAAGAAGAAGATTTTCTACCAATGGGCTATGGTTACCGGTTAGGCTCTAATCCTCAA
ATGGGCAATGCCTATGATGCTAGTCTTGAAGTGAGTGAACAGAAATGTACTGCAATGCTA
AAGGAACAAGAGGAAGAGTTGAATAAGAAGGCTAGAAGCAATGATGATGAGGCAAATGAC
CTCTGGGCAGCTCTGGCAGCTAGGATCCGATTCACCAGGATGTTCTATCAAGCTCTATTG
AAAATAACTAAGAAGGATTCACAATCCGGTGCTGATTGTGTCACACTCCTCAATGGCTGC
TCAGAAATGATCAAAGTCATAATTAAAACTGTGGGCAAGGGCACCCAACCTGCCGAAAAT
TCAGACACCCCTAATCCAATGGGATTCGAACCTATGGTGAACCAGCGGTTATTACCGCCA
ACTTTCCCACGGTACACTCGGATCAAGCCTCGTGCTGAAGCATTGCAATACTTTGAGGAA
CTCGTAACCAGGTTAAGACATGCCTGGAAGATCACATCATGTACTAACTTTCATACTGCT
TTGGACTTCTTCATGGAGTTCAGTCGACAGCGGGCGTGTATATTGTCAAGGTCAGCGCTA
CAGTTGCTGTACTTGAGTCCATCACCAGCGTCCGCATCAATATCCTCGGGTTCAGCGAAT
ATACCACCAGGTCAACGACCCCACGCCTTTGTTGAAATACTAAGAGAATCGGTCAAAACC
TTTGTGAACCCACCCGCATTAAGTGGGAAGACTGCTTCTGGTGTTAATCCTCCTGCTAGA
GAGTTGGTGGAGAATTTTCTAAGTCGTTGTGTCCGTCCGTTCACTGTCCTTGTACAAGTG
TGTGGGCACAACCGAGCGAGGCAGAGGGACAAACTTGCACTGCTGTTGGATGAGTTTGCT
GCATTACAGGAAGAGGCGGATAACGTGGACGCCTTGATAGGTACAGCTGCTGAGCTGGTG
CCGCGTTGTTTCAGCACCTGGATATTGTATCATGTAGTGAGAGTCATGATCGCTTACTTG
CTGTCCGGTCTGGAACTGGAACTGTACAGCGTACACGAATACCATTATATATTTTGGTAT
CTTTACGATTTTCTTTACCGTTGGCTTCTGTCCGCACTCGGACAAGCTGAGACCTTGGCA
GGGGATGTGAGGAGAGACAAGAAAGCGGCGAACAGGAAACAGAAGAAGAAAGTCAGACCT
TACGCACGGGAGAGGCTCATGTGCCAGGTGATGCAGAACATGTGCGGAGGTTACTATAAG
GCGTTAGTGGCATTCAAGTTGCAAGGAAAAATACGCCAACCCCAGTCTGAGTTCGACAAC
GAGTCGGTTCGCTACAAGCATCGTTTCGCCCCACTGTCTGTACTGTCCCCACCACAAGTA
CACTACCACGAGTTCTGCGAGATGACGCAAAACTTACAATTCGAAAAACCTTTTTTTTTG
TATTTAGAGGGCTGTAAACACTTCCAAGAGGCGCGAACTCTGTTAGAGACTATAACCATA
CCAGATCAGGAGGTAAACAATCTTCTAAAAGTCGCAAAAACGAATTTCGTTGTATTAAAA
TTGCTAGCGGGGGGTCACAAGAAGAATTCGTCTGCACCGCCCGAATTCGATTTCTCAGCA
CACAGACACTTTCCTATAATAAAATTGGTTTAG
Protein sequence:
MKMKVNTLLFFIVCVVMCVTEGYAYKNYKSFFETVKEDNSMDVSDFSVYYNIETNETIKK
MMPRPWYKPGWLLRLPFRGGPCECDGYQCICCTGVRIQAFKFDRRTCAKLIYEPQNSTLD
LEVVMNNASVFKNTYSSRNLPPFCIPVPVPYLPPGLVDMCVRLFDVTFVDQKLHVCMDMD
TRIDKAPVVILHFDCMDMGSGGVGLSKPGGTTITSHDSITATEEPIQLDSDVYDAVTEPV
ETTTEIFQNSIKKNPLKYFAGIKTASVCQNLREGLKHHIKLSNWLFYMVCDSGWNIKPAY
HQNVTMDSMPTAPEVIYNWVDITSDFFKYIQDLQLGELLHDGHLFGLFEAMSAIEMMDPK
MDTGMLCNRGNPKPINFQQAVACGKLKIDNLEPSEIIGIIDATMACIVSWLEGHSLAQTV
FTNLYLHQPHSIINKTLKAYCIAVYKLLDCIKDCINKAQVFEEEDFLPMGYGYRLGSNPQ
MGNAYDASLEVSEQKCTAMLKEQEEELNKKARSNDDEANDLWAALAARIRFTRMFYQALL
KITKKDSQSGADCVTLLNGCSEMIKVIIKTVGKGTQPAENSDTPNPMGFEPMVNQRLLPP
TFPRYTRIKPRAEALQYFEELVTRLRHAWKITSCTNFHTALDFFMEFSRQRACILSRSAL
QLLYLSPSPASASISSGSANIPPGQRPHAFVEILRESVKTFVNPPALSGKTASGVNPPAR
ELVENFLSRCVRPFTVLVQVCGHNRARQRDKLALLLDEFAALQEEADNVDALIGTAAELV
PRCFSTWILYHVVRVMIAYLLSGLELELYSVHEYHYIFWYLYDFLYRWLLSALGQAETLA
GDVRRDKKAANRKQKKKVRPYARERLMCQVMQNMCGGYYKALVAFKLQGKIRQPQSEFDN
ESVRYKHRFAPLSVLSPPQVHYHEFCEMTQNLQFEKPFFLYLEGCKHFQEARTLLETITI
PDQEVNNLLKVAKTNFVVLKLLAGGHKKNSSAPPEFDFSAHRHFPIIKLV