| New model in OGS2.0 | DPOGS210059 |
|---|---|
| Genomic Position | scaffold162:- 45792-85109 |
| See gene structure | |
| CDS Length | 6201 |
| Paired RNAseq reads | 1521 |
| Single RNAseq reads | 3604 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012699 (9e-87) |
| Best Drosophila hit | CG2083 (1e-140) |
| Best Human hit | probable methylcytosine dioxygenase TET2 isoform a (2e-94) |
| Best NR hit (blastp) | PREDICTED: similar to CG2083-PA [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to CG2083-PA [Nasonia vitripennis] (1e-176) |
| GeneOntology terms | GO:0008270 zinc ion binding GO:0005622 intracellular |
| InterPro families | ND |
| Orthology group | MCL20468 |
Nucleotide sequence:
ATGAACGAAAAGTACTCAACTTGCTTCCCTTTGCAAGTCGATAGTCGTGAGAGCGGGACG
GCGGCACAGGCCGTCTCCGTCACACATTCGAGGATGACACTTCCGAGAAACGCCACTATC
CTTGTGGATATCGCTGCGGGATTGCGGCATCCCGCGGCACGGGACTCGTGCAACAAGTGG
ATTGGAGTGACTTTTGTACCCGACACTAATAAGATACTAGTGACACGGGGAACGGTTAAC
GTACCGCCGGGATTGCCGGGATTGCGGGATTGCGGGATCGCGGGATCGCACGGATATTAT
CTATGGTCGACGGGTTTCGTTTGGCGCGCGACCAGATTACATTCAAGGAGCTACCGTGGT
CGCAAGCCTCTAGGAGCGGTAGTTCCTGCGGGACTGAGCCCCGGTGTGCCCTCGTCCGCT
TCCCCCGGGCCCGCCCCGGCCGCCCCCAGCCCTGCACCAGCCACCACGCCCGCTATGAAG
CAAGACCATCCTAGCCAGCCCATGGCTCCAATGCCATTTTACGCGGGTGACCCGAACAGA
TTTCCTACAACGTGGCAAACGGATCCGTCGCAAGGTTGGCAAAACCAATTTATTCAGCAG
CTGCCAACGCAGACGGGGCAGACGACTCTAGACTACCAGGGCAATCATACTCCGTACGCC
ACTTCCCCCCACTATCAGACCAACACAACGTACACCGTCCAAAATGTTGCAACTACATTC
GATGTCACAAACAACACGTATTATCAAACTGGCGTTCAAGCTGTTCCAGCACAACGCCCG
CCATCGAACCGCGGCGCTTATACTCCGGTGCCATCTCCCCGGGCTCCACACTATACAACA
GAGTATCAACAACAATACGCACAGCAGGCCCCGACTACATGCGTCACCACGGGGAACGAC
TCGAGACCCGCCTCAGCTGCATCCTATCAAAGTTCTGTTCCAACCTCATCTGCGTCGGTA
TATACTGTGAGTCAACAAAGTTACGACCGCAACGAATACACCTCGGAGCATAACGACGAT
TATAACAACGGGGAAAACAGCACAGGGGAAGCGAGTAACGATGGAGAAAGACAAGAACAA
AATGCGTCAAACAATCAGCATTCGGGAAACGCCGAGCCTGGATACCTGCAGGGGAGCAAC
GGTCCGCGAGCTTCACTCGATTGTAATGGGTATCCGGGCAGCTATGCGAGCGGGCAGTAC
ACGGATAATGGACAGACGCAGAACCAAAATGACTGGCAACAACGCCAATGGCAACATAAC
CAAAGAATTCAGAATCAACAGTTACAGAATCAACAGCAGTTACAAAATCAACAACAACTA
CAAAATCAACAACAATTACAAAATCAACAGCAATTACAAAATCAGCAACAAATGCAAAAT
CAGCAGCAGTTACAAAATCAACAGCAGCAACAGCAGTTACAAAACCAACAACAACTTCAA
AATCAGCAACAAATACAAAACCAACAGCAAATTCAAAACCAGCAACAAATGCAAAATCAA
CAGCAAATGCAAAATCAACAGCAAATGCAAAACCAACAACAAATGAATCATATGCAAAAC
CAACAACAACAATTGCAAAATCAACAACATCAGTTGCAAAATCAAATACAAAACCATCAA
AATCAACAAATGCAACAGCATAGACAAGATGAATCAGAGCAACAAATGTTCTCACAATCG
GACAGGGTCAATTTAAATTCGCGACTTAAAACAATGATTTTAAATAAACAAAGTCATATA
CGAGACGGCACAAACACTCCGCCAGATAAAGGTGACCCTGGAGAGGGGCCTCCTCGTGTA
TTAGATGATAGAAAAACCGGTGTCAACGACGATAGAAATACCACCGGTCATTTTTTATCG
TATAGCCACCATCTCCGAGGTAATTACCACATAGGTGAACAGGGTTACCCTGTCACTGGT
AATTATTCACAAAATACTCAGGCCTATGGCTTGAGTGATATCGGAGGTGGTGGCCACCAT
GTATGGGAGGGGGGAACGCAAGTTCCGAAAGGTTATAAGCAAAGTATATCGAAGAACGTA
TCTAAAACTCCACAAAATTTACCGTCACACGCTAACGTAATAGGACAATACAGTACATAT
GCTAACACGCCTTATGAAGCACAAAAATATGCAGACACGTACGGTAGTGAGAATTTAAGT
TATAGTCAACAAGACAACAAAGATTTTCATTCTAAGATGCTCATTGGACCAGTGTCAGAT
ATCAACCAACAAACCTGCTCCACGACTCAAAAAATCAATACACAAAAAGGAACTTATGAA
AGAGAGACCAGTGATATTAAGTATAGGCAAGCAGCGGCGCCTTTAGTCCCTAAGTTAGAA
ATACCAGACAATTATCAATATGTGAAGGAGGCTATTAAAAGTGAACCACAACGATCGATG
AACCAAAATGCATTCGGTAAGCAAATGGAAGGGCTAAAACATTTGCCTTATCCTAATGGG
ACACAAAATATGGCATTACCACCAATATCTACAATAAAACATGAAAATTTAAATCATAAA
CCACATGTCTATCAAAACTTTCAAAATATACCTTACGAAAGGAAAATTAATACAAGCGAA
GACTTCGCTCAAATTCCAAGGATGCAAGAAAATATAGCTTTTCAAAAGTTCAGTAAAAAT
TTTGAATCCAAATTTAATCGGGGTGTAGACTGTCGAAGCAATTCAGGAAAAAATATAGAC
ATTGATTTAAAACCTCCATATTATATAGAACAAATAAAGTCCGAACATTCACCTCCTGGA
CATAAAATATATAAGAATTTGCTCTATGGACCCCCACGGAGTGAGCCTTACATGTTCGCA
GGAGAGGGAGGCCCTAATGCGTTCAGAAATGAAATAGGGTATGCGTGTTGTAGACAAGGC
TCAGTAAAAAAACCTCCCCCAGAACATCTAAGGGATGGAGCTTGTGCAGGTCTGCAAACT
AAAGACGAAATACTAGAAGAAGACCCAGACAGTACAGATAATTCGAAGACTCCATCGAAA
CCTGGTACTCCTATATCTGATCTCTTCCCAAAAACAACGAAAGAAAACCAATTTAATTAC
TCGAAGGAATATTTAGATAACTTAGAAAGATTAAAAAATAATTCCAGAACAGAAGTACCA
GACTGTAATTGTTTTCCAGCTGACAAAAATCCTCCTGAGCCTGGAAGCTACTATACTCAC
TTAGGAAAAGAAGGCAAAACAGCTCAGGGTTGCCCGATGGCTAAGTGGATAATACGGCGT
TCCAGCTATACTGAAAAAGTACTAGCCGTAGTTAAGTTCCGCAATGGTCACAAATGCTCC
ACTTCCTGGATAGTAGTTTGCTTAGTGGCTTGGGAAGGGATACCGCAGTCCGAAGCTGAT
TTAGATTACACGCTGTTGTCCCACAAACTGAATAGGTATGGCTTGCCGACTACACGTCGG
TGCGCTACTAATGAAAATCGAACCTGTGCTTGTCAAGGGCTCGATCCGGAGACGTGCGGC
GCGTCCTACAGCTTTGGCTGCTCCTGGTCCATGTATTACAATGGATGCAAATACGCCCGT
TCAAAAACTGTCCGTAAGTTTCGACTTTCGGTCAAAACAGAGGAGAGTGAAATCGAAGAA
CGCATGCACGTCCTGGCCACCCTACTTAGCCCCTTGTACATGAATCTTGCTCCAAAGTCA
TTTGAGAATCAGTGTCAATTCGAGAAAGAAGCGTCGGATTGCCGTTTGGGCTTTAAGCCT
GGAAGACCGTTTTCAGGGGTAACGGCATGTATAGACTTTTGCGCTCATGCACACAGAGAT
CTTCATAACATGAACAACGGCTGCACAGCAGTAGTCACACTCGCCAAACATAGAGCACTC
ACGAAACCCAATGACGAACAGTTACATGTCCTTCCATTGTATGTTTTGGACACCACAGAT
GAATTTGGGTCTAAGGAAGGTCAAGAAGAGAAAATTGCCAGCGGGGCTTTGGAAATTTTG
GACAAATATCCTATGGAGGTCCGCGTTAGGTCCGTCCCACTGCAGCCCTGTCGCCGGCAT
GGGAAAAAGAGGAAAGACGATGAAAATACTGAATCGAACAACACATCAACAAACACTCCA
CAACAAAGTCCAAATAACCAAAAGAAATCACAATGTGCCACGCCGACGCCGAAGACTCCG
CAACCCAATGAAATTAGAAACAACGCGAGTCCACGAAGTCAGAGCAGTGCTTCACCGAGA
GCCAGCACGCCCGCTATGAATCTGCAAGTTAACACTGGCTTCACGAATACTCCACACTAT
AACTCCGCTTTCGTGAATCCAAATGTACACAATTCCAGTCTCATGAATCCAAACCTCGCG
AATCCAGCATTACTCGATATGGCGACAATGATTGATAATTTCACTGATGCTCAGTTACAG
AGCAATCAGATCTCTAGCACTGTACTGGATTCTCCGTACAACCCTTACGATCAAAGCTAT
AGTTTACATAATCAAAACGCTATGTATAACCCACACAACGTCGCTCCTGTACTAGATAAC
AATTGCCAAAATCAAAATCCTAACCAGCTGCCGAGTTTTACTCCAAACTTACAAAAGAGA
GACCAATGCAATCCGCAGAATATAAATCAAGTGAATGCGGCTCCACAACAGTGGCCCGAA
TTCGATAATTCAGAAATGTTCAGCAATGTGGTGAAGGAAGATCCAGATTCTACAACTGCT
AATTTAAATGCTGCTAATAATTTTAGTCCCGATTCAAATCGAAGTGAAAGCAATTCAGAA
AATATATCCAGAAGCAATACGGAATCCGAAAAGCTCAATGCTTTAGGAGATTTGACACCA
AAATTACCAGAATTTGATATGCCCAGTTCACCAAGGTTATCTGAAATATCTCAAAAAACC
CAACGAACGCCCGAATCACCGGTGCCTTCACAAGAACTTAAATCCCCTAATCATGACTCG
GTTAATTCAGACGTTCGACGAAGTGTATGGAGATCTCCAGACACAAAAAGCTGGGACCCG
ATGAAACCTAGAGACCAAGTCACTGAAAATGAGAATGCATTGTTTAGAGTGCCTAAAGCG
AGGCCTCCATCGCGATCGCAATATGTGAATCCTTCCGATGGCATGGAAAACTCTACGTTT
CTTAAACCGTATCCTCCATCTGAACGATCCTACCACAACCAAGGTTATGAAAACAGAAGT
CTCCAAGAGAATAGAATGAACGCGTTACCGCCGACGTCACAACAACAAATGAACTACACC
ATCAATCATGAGGACTCACAGAATATAACAACGAATAAACCCGCGCCGGAGTTCACGGGA
AATAACTTTCAACCGATAAACCAAACTACTTACAGCAATCAAGTGCCAGTCCAGGGTTAT
GGAAACTATCCCACGATGACCAACGCTTACTCTTTTACGCCGAACCCCTATGGGCATTTC
AACCCGTATGAAAACTCTTACAACGACTACAATAGTATAGCTTATTATAATGCCGAAAAA
TACAAAAGAGAAGAATTAATACGAAATTCCCATTGCTATAATTCATATGGATATCAGTAC
AATCCAAATTTTGCAGCAAATTTCTACCAGAATCCAAATCCCAATTGGTGTCAGTCTTCG
CCCAACTGGTGCCTGTACCCGCCACCTTTTTCTATTCCATATCCGCCCGAACCACCAAAA
GCAGAACCGATCGGGGAAGTTACTGGAATTAATGACAATCTGGAGTGTTTTAAAGATAGT
CAAATGGGAGGAGTTGCTATCGCTTTAGGGCACGGGAGTGTATTGTTTGAATGTGCGAAA
CATGAGATGCACTCCACCACCGCGGTGAAGAGCCCGAACAGAGTGAATCCAACGAGAATA
TCACTCGTCTTTTACCAACATAGGAATCTGAATCGTCCAAAACATGGCCTTGAAGAGTGG
GAAGAAAAAATGAGATTGAAAAAGTTAGGCTTAAGCCCGTCGACACCGGGAACCCCGGGA
GCCAGCTCGAACACCGCGTCACCGGCCTCCACACCCGGCCTCGAGCAGAGACAGACACCA
GCCGAGAAATGGAAAAGCAACGAGAACGCGATACCAGGAGGATATAGCTCTTTGGCGGCT
CTCGTGGAGGCGACCAACGCGGCCAGGAGGAGTCGCCAGATTATGTTGAGGACGGACACG
CAGACCACCATGTCGTGGACCACGTTGTTCCCGATGCACCCGTGTACTGTGACGGGACCC
TACCAGGAATCCGGCACCTGA
Protein sequence:
MNEKYSTCFPLQVDSRESGTAAQAVSVTHSRMTLPRNATILVDIAAGLRHPAARDSCNKW
IGVTFVPDTNKILVTRGTVNVPPGLPGLRDCGIAGSHGYYLWSTGFVWRATRLHSRSYRG
RKPLGAVVPAGLSPGVPSSASPGPAPAAPSPAPATTPAMKQDHPSQPMAPMPFYAGDPNR
FPTTWQTDPSQGWQNQFIQQLPTQTGQTTLDYQGNHTPYATSPHYQTNTTYTVQNVATTF
DVTNNTYYQTGVQAVPAQRPPSNRGAYTPVPSPRAPHYTTEYQQQYAQQAPTTCVTTGND
SRPASAASYQSSVPTSSASVYTVSQQSYDRNEYTSEHNDDYNNGENSTGEASNDGERQEQ
NASNNQHSGNAEPGYLQGSNGPRASLDCNGYPGSYASGQYTDNGQTQNQNDWQQRQWQHN
QRIQNQQLQNQQQLQNQQQLQNQQQLQNQQQLQNQQQMQNQQQLQNQQQQQQLQNQQQLQ
NQQQIQNQQQIQNQQQMQNQQQMQNQQQMQNQQQMNHMQNQQQQLQNQQHQLQNQIQNHQ
NQQMQQHRQDESEQQMFSQSDRVNLNSRLKTMILNKQSHIRDGTNTPPDKGDPGEGPPRV
LDDRKTGVNDDRNTTGHFLSYSHHLRGNYHIGEQGYPVTGNYSQNTQAYGLSDIGGGGHH
VWEGGTQVPKGYKQSISKNVSKTPQNLPSHANVIGQYSTYANTPYEAQKYADTYGSENLS
YSQQDNKDFHSKMLIGPVSDINQQTCSTTQKINTQKGTYERETSDIKYRQAAAPLVPKLE
IPDNYQYVKEAIKSEPQRSMNQNAFGKQMEGLKHLPYPNGTQNMALPPISTIKHENLNHK
PHVYQNFQNIPYERKINTSEDFAQIPRMQENIAFQKFSKNFESKFNRGVDCRSNSGKNID
IDLKPPYYIEQIKSEHSPPGHKIYKNLLYGPPRSEPYMFAGEGGPNAFRNEIGYACCRQG
SVKKPPPEHLRDGACAGLQTKDEILEEDPDSTDNSKTPSKPGTPISDLFPKTTKENQFNY
SKEYLDNLERLKNNSRTEVPDCNCFPADKNPPEPGSYYTHLGKEGKTAQGCPMAKWIIRR
SSYTEKVLAVVKFRNGHKCSTSWIVVCLVAWEGIPQSEADLDYTLLSHKLNRYGLPTTRR
CATNENRTCACQGLDPETCGASYSFGCSWSMYYNGCKYARSKTVRKFRLSVKTEESEIEE
RMHVLATLLSPLYMNLAPKSFENQCQFEKEASDCRLGFKPGRPFSGVTACIDFCAHAHRD
LHNMNNGCTAVVTLAKHRALTKPNDEQLHVLPLYVLDTTDEFGSKEGQEEKIASGALEIL
DKYPMEVRVRSVPLQPCRRHGKKRKDDENTESNNTSTNTPQQSPNNQKKSQCATPTPKTP
QPNEIRNNASPRSQSSASPRASTPAMNLQVNTGFTNTPHYNSAFVNPNVHNSSLMNPNLA
NPALLDMATMIDNFTDAQLQSNQISSTVLDSPYNPYDQSYSLHNQNAMYNPHNVAPVLDN
NCQNQNPNQLPSFTPNLQKRDQCNPQNINQVNAAPQQWPEFDNSEMFSNVVKEDPDSTTA
NLNAANNFSPDSNRSESNSENISRSNTESEKLNALGDLTPKLPEFDMPSSPRLSEISQKT
QRTPESPVPSQELKSPNHDSVNSDVRRSVWRSPDTKSWDPMKPRDQVTENENALFRVPKA
RPPSRSQYVNPSDGMENSTFLKPYPPSERSYHNQGYENRSLQENRMNALPPTSQQQMNYT
INHEDSQNITTNKPAPEFTGNNFQPINQTTYSNQVPVQGYGNYPTMTNAYSFTPNPYGHF
NPYENSYNDYNSIAYYNAEKYKREELIRNSHCYNSYGYQYNPNFAANFYQNPNPNWCQSS
PNWCLYPPPFSIPYPPEPPKAEPIGEVTGINDNLECFKDSQMGGVAIALGHGSVLFECAK
HEMHSTTAVKSPNRVNPTRISLVFYQHRNLNRPKHGLEEWEEKMRLKKLGLSPSTPGTPG
ASSNTASPASTPGLEQRQTPAEKWKSNENAIPGGYSSLAALVEATNAARRSRQIMLRTDT
QTTMSWTTLFPMHPCTVTGPYQESGT