| New model in OGS2.0 | DPOGS214304 |
|---|---|
| Genomic Position | scaffold979:- 67921-77866 |
| See gene structure | |
| CDS Length | 3174 |
| Paired RNAseq reads | 13 |
| Single RNAseq reads | 45 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004110 (2e-127) |
| Best Drosophila hit | ND |
| Best Human hit | adenylate cyclase type 10 isoform 1 (2e-55) |
| Best NR hit (blastp) | conserved hypothetical protein [Culex quinquefasciatus] (2e-149) |
| Best NR hit (blastx) | conserved hypothetical protein [Culex quinquefasciatus] (1e-143) |
| GeneOntology terms | GO:0005856 cytoskeleton GO:0016829 lyase activity GO:0016020 membrane GO:0000166 nucleotide binding GO:0005886 plasma membrane GO:0005524 ATP binding GO:0000287 magnesium ion binding GO:0016849 phosphorus-oxygen lyase activity GO:0007283 spermatogenesis GO:0009190 cyclic nucleotide biosynthetic process GO:0005625 soluble fraction GO:0005829 cytosol GO:0030145 manganese ion binding GO:0030424 axon GO:0030425 dendrite GO:0030426 growth cone GO:0004016 adenylate cyclase activity GO:0005737 cytoplasm GO:0023034 intracellular signaling pathway GO:0046872 metal ion binding GO:0006171 cAMP biosynthetic process GO:0043025 neuronal cell body GO:0043065 positive regulation of apoptosis GO:0045177 apical part of cell GO:0045178 basal part of cell GO:0051117 ATPase binding |
| InterPro families | IPR001054 Adenylyl cyclase class-3/4/guanylyl cyclase IPR011990 Tetratricopeptide-like helical |
| Orthology group | MCL10417 |
Nucleotide sequence:
ATGGACCAACTAAATGCAATAAATCCTGAGGAGGATGCTAAAAAATATGAAGCCTATTTG
GCTGCTCTTAAGCAACTTCGAAAGTCTTCGTTCGTAGAGGTTACTCCGAGAGAAAAACAC
AGAAATCAGGAATCCAAGAAACAAGCGTTGCTAGATGGTATATCAGGTACTTGGAGTACT
GTCCAACAGGCGACAAGAATTGCGATCATAGCTTCCCTGGTGCCGGATGAGATTATTTAC
AGACATTCAGACCATTCCGTTAGAAGTTATGAGACCGCGCTCATGTTTATAGATGTCTCT
GGTTTTACCAAGCTATGTGAGACTTATACGAAAACCGGTGGTGGCCCTTCGAGGCTTACC
CAAGTTCTTAATTCTTACATTGGTGCTATGGTTCAAGAAATTTTAACGCATAAGGGGGAT
GTTTTAAAGTTTTCTGGCGACGCCTTTTTATCAATGTGGAAGAAATCTCCCCGATTAAAC
ATGCAAGATGTCGTTCACACCGCTATTGACTGTGGTTTGTTAATTCAAAAAAATTACGGA
AGATACATGACTGACGTTGGAGTGGTTCTAAAAGTCAAAGTCGCTATATCCGCCGGTTTG
TCCCATTTTTCTATAATCGGTGGTGGTAATATATCCCAAACGCAATACGTAATAGTCGGT
CAGCCGGTGTGGGACGTCAAAATGGCGGAATATATGAGTGCAGCTGGTGACGTTTTAACG
TCAGCCAGTGCTTGGATGTATGTCAATGAGGCGGAATATTGTACACAGCCATGCGGAGAT
GGTAGACATACTAAGGTATTGGGTGTTGGCGCTTCTTGGAAAAGAGTAGAGAAACTGCGT
TTTTCTCTAGGAATGAATAAAGAACCAGACTGCTTTAGTAACGAAAATTTATCACTTGAA
AATTTTACTGTTTCCGGCATTAATTATCGAGAGTATGCACATCGTCCAGCTGTGGTAGCA
GCGATGCGTGGTACTTGGTGGCCGGCTCTACGTCAATTCATGGTACCGCCAATATTACGA
GCGGTTGACAACGACGAACCTATGGACTTTCTCACCGAAGTCCGCCATGTTGTTGTTGTC
TGTATAAATATAATAACAAGAACTGTCACAGAGACTGTACTCATTGAGGTTGTTGATACC
GCTTACAAATGCGTCTACAGCGTGACGTCAGAGGCTGGCGGTCTCGTCAACAAAATCTCA
ATGTTCGACAAGGACATGATGTTGCTTGTAGTTTTCGGCTTAAGAGGACTCAAGCATGAG
GACGAAGCCCAAAAGGCACTTCAATGTGCGTCTCAGTTAAAGGAATCCCTTGATGATGTT
AATATTATAAACGTTAGCATTGCAGTTACCTCGGGACTAACATATTGCGGCGTTGTCGGT
CATGTACTGAGAAGAGAATATACTGTCATAGGATCAGCTGTCAACAAGGCTGCTCGTTTA
ATGATGGCGTATCCGAATAAAGTGACCTGTGATAAAGAAACTTTTTTAAAGAGCAAAATA
AATCAGGAGTGTTTTAAATTGGTGGAGACCAAACCTTTAAAGGGAATATGTAAACCTGGT
CCAATATACGAATTCAGTAATCCTAGTATTGACATGACGTCATTAGGGCCTCTGGAGATA
TACGGTATAAACACCGTGTTCGACTGTCGCTTCCCGTTACCCGAAAATTACGCTCCAACG
TGCAAATTACTCGATCAATTTAAAGTCAAGGAAGTCATTAAGGAAATATGTAGGGTGAAT
CTGCCGTCTCTACGCGTTGTAGCGGTCGCTGAAGGTCAATATATCGATGATGATTCCTGG
CAAATTATAATTCTTCTTTTGGGGGCTAAACTAATTTTTCTACTAGTCAGCATATCAGAA
GAAGAAACACTCTCTGCCACAGCTACAATATGCTTAGCTAACGCTATGATAATCAAACTG
CCGCTATCGGGAATCGATCGGTGGTACCACGCGGCGTTGGCCTGCCAGCTTCTGGACGTA
CAGGCGATACAGTCGGATCTGGAAAAGATCATTGAAAGTGCAAGTGAAGGTTTGCCGGGG
TGGATTCAGAACTTTGTCATATCATTAGTTCAGAGAGGTCAATTAACAATGATGACCATG
TCTCGATCAGAGGCGCTGGAGATGGGAGCCGTGACACCGTCACCAGCGTTACTTGAGACG
GACACCACTAGTACGTCGTTTGAAGATATCGAATGCAGCAAGGATAGCTACTCTTACGTA
CTTAAACAAGGCTCGGTGGCAGAAAACGAGATGATACAAATGGCGGTGCTGACTGACACG
TACGACTTCGAGAACATGAAAGTTGACGTGAAAATGGACGCGCTTATTTTGAAGACATAC
GATTCCTTAACGCCTTTCGAGAAAATGCTATTGAAATGTGGCTCAGTGCTGGGCGAAGTG
TTCTCGCGCTGCATGCTTTTACACTTGCTGCAGAGCGATTCCCCTCGGAGAGTAGCTCAA
GCTCATTGTCAAGATCTTCCATCGTACGCGTTCTGTGGGTACATGAAATTTAGACACAAC
ATGTTTAGGACAACCACGTATGAATTGTTGACTGAGAGTCAGAAGGGGTTAATACATGAG
AGCAAGGAACTAAACCAGATCCGCGAGCAGATTTGTGCATTGAGCACCGAGACTAAGATG
ACGAGTGATAATAGCGCGGTTGATGCATTTTCCCAGTACCAGATGTCAATCAGAAGCGAA
TCAAATATTCGTGCGTTACTAGATTCTGAGGATTTAAGGCGCTTGAGTCGCTCGATGCAA
ATGTATCGTAAAGATAAGCGTATAAGATCCTTCTCGTCTCTTGAGCTGAGTATTTGTGAA
TGTTTGCCGATACTTCTCTCGGCTTATTCACAGGCTATAGAACATTGTCACGGCGCAGAT
GATTCTGAAAAATTATTCGAAGCCTATTTAGAGTACGCCGACTTGAGCATAATCAACATG
AACATACCGCAGGCTGTTCACTTACTCTCTAAAGTAGAGGAGTTCGTTTTGAGTGATGCG
AGTTCTAAGAAAAACGAGTTCAAATGGGTCAAAGATTTCAAACTGGGTCGCATACATTCG
TTGCGCGGCGCTTGTTTGCTCGAGTGTGGTGACTTAGATCAAGCGAGGAAGGAATTGTTA
CAGGCTATGCGGCTGTTCTGTGATCCCTTCCCGAGTTCCAAGTACGACAATTAA
Protein sequence:
MDQLNAINPEEDAKKYEAYLAALKQLRKSSFVEVTPREKHRNQESKKQALLDGISGTWST
VQQATRIAIIASLVPDEIIYRHSDHSVRSYETALMFIDVSGFTKLCETYTKTGGGPSRLT
QVLNSYIGAMVQEILTHKGDVLKFSGDAFLSMWKKSPRLNMQDVVHTAIDCGLLIQKNYG
RYMTDVGVVLKVKVAISAGLSHFSIIGGGNISQTQYVIVGQPVWDVKMAEYMSAAGDVLT
SASAWMYVNEAEYCTQPCGDGRHTKVLGVGASWKRVEKLRFSLGMNKEPDCFSNENLSLE
NFTVSGINYREYAHRPAVVAAMRGTWWPALRQFMVPPILRAVDNDEPMDFLTEVRHVVVV
CINIITRTVTETVLIEVVDTAYKCVYSVTSEAGGLVNKISMFDKDMMLLVVFGLRGLKHE
DEAQKALQCASQLKESLDDVNIINVSIAVTSGLTYCGVVGHVLRREYTVIGSAVNKAARL
MMAYPNKVTCDKETFLKSKINQECFKLVETKPLKGICKPGPIYEFSNPSIDMTSLGPLEI
YGINTVFDCRFPLPENYAPTCKLLDQFKVKEVIKEICRVNLPSLRVVAVAEGQYIDDDSW
QIIILLLGAKLIFLLVSISEEETLSATATICLANAMIIKLPLSGIDRWYHAALACQLLDV
QAIQSDLEKIIESASEGLPGWIQNFVISLVQRGQLTMMTMSRSEALEMGAVTPSPALLET
DTTSTSFEDIECSKDSYSYVLKQGSVAENEMIQMAVLTDTYDFENMKVDVKMDALILKTY
DSLTPFEKMLLKCGSVLGEVFSRCMLLHLLQSDSPRRVAQAHCQDLPSYAFCGYMKFRHN
MFRTTTYELLTESQKGLIHESKELNQIREQICALSTETKMTSDNSAVDAFSQYQMSIRSE
SNIRALLDSEDLRRLSRSMQMYRKDKRIRSFSSLELSICECLPILLSAYSQAIEHCHGAD
DSEKLFEAYLEYADLSIINMNIPQAVHLLSKVEEFVLSDASSKKNEFKWVKDFKLGRIHS
LRGACLLECGDLDQARKELLQAMRLFCDPFPSSKYDN