New model in OGS2.0 | DPOGS205736  |
---|---|
Genomic Position | scaffold1656:- 9462-19483 |
See gene structure | |
CDS Length | 3069 |
Paired RNAseq reads   | 1027 |
Single RNAseq reads   | 2568 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007095 (0.0) |
Best Drosophila hit   | CG12753, isoform B (0.0) |
Best Human hit | protein CLEC16A (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to CG12753-PA, isoform A [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to CG12753-PA, isoform A [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0003674 molecular_function GO:0005575 cellular_component GO:0008150 biological_process |
InterPro families   | IPR019155 Uncharacterised protein family FPL |
Orthology group | MCL13794 |
Nucleotide sequence:
ATGTTTCGAAGTCGTAGTTGGTTTGGGGGCGGTTGGGGTCGCCCTAAAAATCCCCATTCG
CTGGAAAGATTGAAATATTTACACAATATTCTATGTAGAAACACTACTGTATCAGAAAGT
AACAGAGGAATATTAGTTGAATCTTTGCGATGTATCGCAGAAATACTTATATGGGGTGAC
CAGAATGATAGCTCTGTATTTGACTTTTTCCTAGAGAAGAACATGCTATCTTATTTCTTA
AGGATTATGAGACAGAAGTGTGGCGGATCTTCGTATGTTTGTGTACAATTGTTGCAGACA
CTTAATATACTGTTTGAGAATATAAGAAATGAAACATCATTATATTATCTTCTCAGCAAT
AATCACGTGAATTCAATAATAGTACATAAATTTGATATATCAGACGAAGAAGTGATGGCC
TACTATATATCTTTCCTTAAAACTCTCAGCTTTAAACTAAACAATCACACGATCCACTTC
TTTTATAATGAGCATACAAAGGACTTTCCTCTTTACACTGAGGCCATTAAATTTTTTAAT
CATCCGGAATCAATGGTTAGAATAGCCGTCCGTACATTGACCTTGAATGTGTATAAAGTC
CAAGATGCTAGTATGTTGCGGTTCATAAGAGACAGGACCGCTGCGCCGTATTTCAGTAAC
TTGGTCTGGTTCATCGGGAAACATATATTGGAATTGGACGCCTGTGTCAGGAACGATGCT
GACCACCAATCACAACAGAAGCTAGGCGATTTAGTAGCCGAACACTTGGATCACCTCCAC
TACATAAACGACATCCTATGCCTGAACATTCCCGACCTGAACGATGTCCTCACAGAGCAT
TTACTTCACAAACTATTGATACCTCTCTACATATACTCACTCACATCCGACACAGTGAAA
CAAACAGAGGAGGAAATTAAGCCGTCAGTTTCGTGTGTGGTCGCCTTATTTCTGCTATCC
CAAGTTTTCCTGATCATAACCCACGGACCAATAGTCCACGCCTTAGCTTGGATCATACTC
CAATCTAACTCATCTGTATTCGAAGAGGGTGCTACAAAAATATTGGACATGTACGACAGG
AACGCCAAATCGAACGTGAAACTCGAATTTTCCAAACCTCAATTGAGTTTGGAGAAAGCG
TTGGAGAACACGTCTTGTCCAGAAAGAGACTACACCACCCCGGAATACGCGGAGGCAAAA
GGTTTCGGCGAGGATTTGGACAACACGGATCATTCAAGTTGCGATCTGGACCCGGAACTC
GTTTCCAATTCGCTGCCGTCCACCTCGCAAATCAGCGAAACTTCGAGCATAGCCCACGAT
TCGACGGAGGATCTGGTGACGCAAATCCAGACCATTAAGAGGCATCCCGCCATCCCGAAA
GCGAACATGCCAGATTCACCGCTACCAGATGCCGTGGAACCATCCAAAACCGTGACCGAA
ATGAATATAACTGACGAGGAAAAGCAGAAGCTGCTGAATGTGATGCCGGGGACTTCTGGT
GACGTCACAGAAGATGTCCAAAGAACCACCGGGAATATAGAGAATAGACCATTCCTAAAG
ACCGTCGTAGACTCATTGGATTGCACCGAAAATGACTACAAAGCTTTGTTCGCACTGTGC
CTGCTATACGCATTGATAAATAATAAAGGGGTCAATCCTGAGTTGCTCGATATTTTATTA
CGGCCAGAAGCCGATCCCAGTAAAGCGAGCACTTCTAGTGGATCGCCAGATGGAGGGGAA
AGAAAGGAAAAGAAAGATAGCTTCAACGGACTCCTCATAGCGGAATTGATGGCCATTGCT
AATCTGTGTTGTAAGCCGGCTTCCAAGGTCCGTTTAGTGACGTGCGAGCTAACCGTCCGT
CTTCTTCGCACGGCGATGCAGTTCAGCGAGGGGTCGGTGACGTCACGCCAGACGGCCAAC
GTGCTGCGAGCCCGCGCCGCAGCCCTCGCCAGGAACTTCTATAAGTGTGATGACATCTTC
TTAGATATGTTCGAGGACGAGTACTGTGAGATGTCTAAGAAGCCTTTGAACGTGGAGTGT
CTTTGTATGGATGCGGCCATTTTGTTACCACCCACGCGCACACCCATGTCAGGGATAGCT
TTCGAAAAAAGACTGCCAAGCGGAGAGATGGAGCGAGCTCGTCGCGCCATCCGCACCTTC
TTCTTGATCCGAGAGCTGTACCTCAAGCTGACCGGACGGCCTGAGAGTCAACTGCCGCTA
GCCAATCCCGCACCCTTTGTGCAAGTTGGGGACGTTTTGGACCTCAACGACTCAGACCTG
ATATCCTGCGATATAATCCAAAGAGACGGTACTTGGCAACATCGCTTTTTAGCGGTGGAC
AACATGCAGGTGATCCTTGTAGAACCTGACAAACAACGTCTGGGCTGGGGAGTGGCTAAA
CTGGTGGGAAGTCTACAGGATCTCGAGATACAGGGTGACAAAGAGGACCCGAGATGTCTT
CATCTCATAATACACAAGCCCCGAGTGGGCGCCAACGGAGCCCTACCTCGGACGATATTA
CTGCGGGCGAAGTTCAAATTTGACGACCACATCCGGAGTATGGCGGCCAAACAGAGACTC
ACAAAGGGTCGGACTAAAGCCCGCCAGAAGAAAATGCAGCAGATAGGCCGTCTGCTAGAA
GTGTCGGGTGTGGCAGCCCTAGCAGCGCCTTCATCTCACAGACATCGACCGCTATTCGCT
AGACCAGCCCTCGCCGCAGTCAGGAGACATTCAGGCATAGATGGTGATGATGCCGAGAGA
CGAATACGGAGAACTAGCGGTCACGTCCTCAAAGACGGCATCGTGGTGTATAGAGAACGA
ACAACCACTAGCCGAGAGAGCAGTGTATCCCGGGGGAGCAATGGTTCCAGGGACTCATCA
CCTCGGGCCAGATCAGAGGAGATACCTTTAGAAGACATCAGACGCGCCGCCGGGTCAGCC
GCACCCGTCGTCGTGAGAAATTCAACACCAACAACCTCTCATCCGAAGGTAACCAGCGCT
TCCTCAGAGGAAACCTCCTTCATATCCAACGATCCAAGGAAAAGGAAGGGTATTGTTGAG
ACTATATGA
Protein sequence:
MFRSRSWFGGGWGRPKNPHSLERLKYLHNILCRNTTVSESNRGILVESLRCIAEILIWGD
QNDSSVFDFFLEKNMLSYFLRIMRQKCGGSSYVCVQLLQTLNILFENIRNETSLYYLLSN
NHVNSIIVHKFDISDEEVMAYYISFLKTLSFKLNNHTIHFFYNEHTKDFPLYTEAIKFFN
HPESMVRIAVRTLTLNVYKVQDASMLRFIRDRTAAPYFSNLVWFIGKHILELDACVRNDA
DHQSQQKLGDLVAEHLDHLHYINDILCLNIPDLNDVLTEHLLHKLLIPLYIYSLTSDTVK
QTEEEIKPSVSCVVALFLLSQVFLIITHGPIVHALAWIILQSNSSVFEEGATKILDMYDR
NAKSNVKLEFSKPQLSLEKALENTSCPERDYTTPEYAEAKGFGEDLDNTDHSSCDLDPEL
VSNSLPSTSQISETSSIAHDSTEDLVTQIQTIKRHPAIPKANMPDSPLPDAVEPSKTVTE
MNITDEEKQKLLNVMPGTSGDVTEDVQRTTGNIENRPFLKTVVDSLDCTENDYKALFALC
LLYALINNKGVNPELLDILLRPEADPSKASTSSGSPDGGERKEKKDSFNGLLIAELMAIA
NLCCKPASKVRLVTCELTVRLLRTAMQFSEGSVTSRQTANVLRARAAALARNFYKCDDIF
LDMFEDEYCEMSKKPLNVECLCMDAAILLPPTRTPMSGIAFEKRLPSGEMERARRAIRTF
FLIRELYLKLTGRPESQLPLANPAPFVQVGDVLDLNDSDLISCDIIQRDGTWQHRFLAVD
NMQVILVEPDKQRLGWGVAKLVGSLQDLEIQGDKEDPRCLHLIIHKPRVGANGALPRTIL
LRAKFKFDDHIRSMAAKQRLTKGRTKARQKKMQQIGRLLEVSGVAALAAPSSHRHRPLFA
RPALAAVRRHSGIDGDDAERRIRRTSGHVLKDGIVVYRERTTTSRESSVSRGSNGSRDSS
PRARSEEIPLEDIRRAAGSAAPVVVRNSTPTTSHPKVTSASSEETSFISNDPRKRKGIVE
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