| New model in OGS2.0 | DPOGS213815 |
|---|---|
| Genomic Position | scaffold676:- 13516-22053 |
| See gene structure | |
| CDS Length | 4044 |
| Paired RNAseq reads | 4014 |
| Single RNAseq reads | 9674 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA006555 (3e-08) |
| Best Drosophila hit | rutabaga (1e-140) |
| Best Human hit | adenylate cyclase type 1 (2e-100) |
| Best NR hit (blastp) | PREDICTED: similar to AGAP000727-PA [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to AGAP000727-PA [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0006171 cAMP biosynthetic process GO:0007611 learning or memory GO:0004016 adenylate cyclase activity GO:0008294 calcium- and calmodulin-responsive adenylate cyclase activity GO:0016020 membrane GO:0009190 cyclic nucleotide biosynthetic process GO:0019933 cAMP-mediated signaling GO:0007619 courtship behavior GO:0007612 learning GO:0007591 molting cycle, chitin-based cuticle GO:0008355 olfactory learning GO:0005887 integral to plasma membrane GO:0007625 grooming behavior GO:0048149 behavioral response to ethanol GO:0007268 synaptic transmission GO:0007186 G-protein coupled receptor protein signaling pathway GO:0007617 mating behavior GO:0007613 memory GO:0016021 integral to membrane GO:0023034 intracellular signaling pathway GO:0048675 axon extension GO:0007274 neuromuscular synaptic transmission GO:0009408 response to heat GO:0006979 response to oxidative stress GO:0008340 determination of adult lifespan GO:0007614 short-term memory GO:0001661 conditioned taste aversion GO:0030431 sleep |
| InterPro families | IPR001054 Adenylyl cyclase class-3/4/guanylyl cyclase IPR018297 Adenylyl cyclase class-3/4/guanylyl cyclase, conserved site IPR009398 Adenylate cyclase-like |
| Orthology group | MCL10066 |
Nucleotide sequence:
ATGCGAGTTGGTATTCACACTGGGCGGGTGCTCTGCGGCGTGCTTGGTCTACGGAAATGG
CAGTACGATGTTTGGTCCAATGACGTCACACTCGCAAACAATATGGAGGCCGGAGGGGAG
CCGGGTCGAGTTCATATAACGCAAGCGACTCTAGAATGTCTCGGCGGCGCTTACGAAGTG
GAACCAGGCCATGGAGCTAGTCGGAACGCTTATCTACGTGATCATTCCGTACAGACGTAT
TTCATCATCCCTCCTCCACGACGGAGAAAAATGTGCCTGTCTGCTGGTGTCGGTCTGGGC
TCAGGGTCCCGCCGCAAGCTGTCTTTTAAAAACGTATCCAACGTAGTGGTCCAGCTATTA
CATTCTATCAAGTTCAATGTAGATGTACCCTTTTCGAACATGGCCGCATCGCCACAGGAG
CTAAAGGCAAACGCTGCTAGGAAGGTGCTGGACCTGCGGAGAGCGCTGCACGCGGAGCCT
GGCTCGGCGGAGGCGCTGCGGCTGGCTGCTCTGCGCGGCGACCACGTGAGCGCCCCGCCC
CCTGCTCCTGCAGCCCCCGCAGCCCCCGCCCACGCCCCGCACCACCACACCTTCGACGCC
GTCATGCAGCACCACGCCCTACGCACACACGCAACGAATAAGGTAACGGAGAAATTCAAG
CGGCCGCTGAAAAAGCGTCATTCGTCTGTTTACCACCAGCCCACTAACCGCGTCAACAAG
TATCTCGCGCAAGCCATCGATGCGAGATCCGTGCATCGTGAGAAGGCTACGCACGTTCAC
CTCCTCACGCTCTGTTTCAAAGAAGGGAGTGACAAGGAAGCACAATATCGAGCTTCGACT
GACGGTGGCTGGGCGGGGTCCCTCAGTGCCGCTCTCGGAGCTCTGGCCGCTGCAGGGGCG
CTCCAAGCTGCTATACTACCTCGGACCACCATACTTCTTCTCCTATTTGTGACAGCGTTT
GCCTGGTCTGCCGCCGTCTTGGCCCTTACTCTTGCCGCTCGACTGAGACTCATACCTTGC
GATGTATCCAGACCTTTTGCTCTCAGGAATGCTATTACTACTTTCACCATCGTTCTTGGT
TACGCTGTTGGACAAGTTAATGTCATAACGTGTCGTGAGATCGACGTTTGTAAAAAGATA
TCAGAGAACACGACCTCGATGGAGGAAGTAAGATCCGCTACCGGCGATGTGGCAGCTGCT
TTGTGGAGTAGTAACGATCATTTGGCGTGTCCTATACCCTTGTATATAACGCTGGGTTGC
TGTCTCAGTATGCTGACTGTGGCTGTGTTTCTGCGCTTGCCGATTTTGGTGAAAGGAATA
CTTCTAGCTGTCATGACAGCCGGATACGTAGCTGTTATTTTGGGATTTCATAGAGATATC
TTCGACTGTTACGACCTCATGACGGGCACGGGTCCAATATCATCGTCATACTCTTCGTGT
GCGTGGACGATAGCGCTGGCGCTGGCCGTGTTGCTTCACGCTCGTCAGACCGAGTGGACC
GCCAGGCTAGACTTCTTGTGGCAGGTTCAGGCGCGAGATGAAAAGAGAGAAATGGATGCA
CTGCAGGCATCTAACCGAAGGATATTATTTAATTTACTGCCAGCTCACGTCGCAACACAT
TTCTTGGATAACCAATTCAGAACAAACATGGATCTGTACCATCAATCGTACCAACGTGTG
GGCGTGGTCTTCGCTTCAATCACCAACTACCATGAGTTCTACATGGAGTTAGATGGAAAC
AATCAGGGCATGGAGTGTCTAAGGCTTCTTAATGAGATCATAGCAGATTTCGACGAGCTA
TTAGGAGAAGATCGTTTCGGTGCCATTGATAAAATCAAAACGGTTGGATCTACTTACATG
GCTGCCGTCGGGCTGATACCAGACAAGAAAATGACCGATGACACGAGCACACGGAAACAT
ATGGCCAACTTAGTAGAATTTGTGTTCTCAATGAGAGACAAACTAAAAGATATAAACGAC
AATTCCTACAATAACTTCATGCTTCGTGTTGGTATAAACGTTGGACCAGTGGTAGCTGGT
GTAATCGGTGCTAGAAAACCTCAGTATGATATCTGGGGTAATACAGTTAATGTAGCGTCT
CGGATGGATTCTACTGGGCTACCGAACCACACCCAAGTTACTGAGGAGGTATATCAGGTG
TTGAAGGACATGCCTTATCAATTTGTATGCAGAGGAAAAGTAAAAGTGAAGGGAAAGGGC
GAAATGACTACTTATTTCTTGACCGACAGAGCACCTTCTAACGGAAATCTGCATAATCCG
TCTAATGGTCAACCACAAAACCCACCTACGGCTTATGGCGGCGTAGCAACACCTCTAGCG
ATGTTACAAAACTCAGCCCGAAGAACGGCCACCCAACCATCTAGACTCCCTCCCGTTCGA
GAAGCCTCGGTAGCGGGTGAGAACGAACCACTTTTGCCATCCAACGGCTATCATAATGGC
AACAACCACAAAGGCAGCAAAGGACGAAGGAATAAGGAGTCCGAAGATACACCTCCTCCC
CCACCTCCCCATGGCATAAATGGAAATCCTCGTTGGCCTCCCCCTAGAGCCTTAGTACCA
CCTTGGCCAAGACCACAAGAGACACGACCTCCGGCCGTACATAAGAGAAGGCCTCCTGCG
AGACTTCCCAGACCACGTTCTAGTGAAAGCCTACCATTAGCTAGAAGTCCGAGAGTGCAT
TCCTCTGCTGATGAGTTGAGTTCCCTTACCCGTTCCCCTAGTCTTAGTTCCTCAGATGAA
AGTTACTCACGAACAACTGATGCCTCTCCTTCCCCTCCGCGACCAACCCCATGGCTACCA
CCTCACCGATCTCAACGAAATGATCCTAACCCCTCATACGACTATCCACCCGTCCGTTTA
AACAAACCCACTCCAAACTTTATTAATGAAATTTATGCGAAACATAAATTAAATAAAAAA
CCGTCACTGGACGATAAAATCCTAGACGGGAACTTCGGTTTTCAAAAAGAGGAAGAGAAA
CTGCAGAGGAGCATAATAAATATGCTTCAAGCTTCGGTTAAGAGAGACAGTTGTTGTCAG
ACTGATAAAAAGGATGTACCTCATCGATTTACCCAAAGAACCAGTTCATTCTCGAGTTCA
GGAAGTAGACCGAATAATTTGAAACATTTGAATCACGATAGCAGAGAAGTTTTCACTAAG
AGAAGTCCGTCGGATGTAGCCTGCGTACCGCCATTCGAAAGAGAGATTCAAAGACTGCTC
GAAGATAAAAATCTCATTAAATTAAACTCGCCCAAATCTGAGAGGAAGGAATTGAAACTA
GAATTAAGGTCACCCCACTCTTCAATGGAGCTTCGTAATAACAACAATAACAGTAGTCCA
CTACACGCGGTTGGTCTTGCGGCTATTACTCAGCTGGTTCGCCGTGAACCGAGTCCATCT
CGACCACGCCCTCCCCCCTCACGACCCTCCCCTCTCAAACCCTCCGCGGACTTCCCCGGC
GTCCTACCCACAGATGTCATCGTAGAACTACCTTCGCCTACGCATAAAGCGGAACAGAAT
ACCGGTGTGCAAGGTTCTAGAAGTTCGGAGATGACATCTTCCAAAGATAAACAGGAGAAG
GAAGTACAGGACAGACTTACTCGGATTGCCACCTCAAACCATAGAGAAATGGGTCTATAC
GGGGAGAGTCAGTCCGAATGGAGTTCGTCGTGTTCGGAGGGCGAGGGTGAGGGCGACGGG
GGTCAGCCGGAGAGCACAGGTTATACAACCGATGACCCCGCACTGGAGAATGTGTCCATG
CTGAACGAGGCTGGACTGACTGACGCGGAGGCGGCCCTCAGCGATGTAAACTCTTGCTAC
CTGGACCGTGACGATGACGTGTCTTCCCGCGCTTCCTCTCGTCTACTCGACTCCGAGGCG
CTAGTGTCGCTGGAGTCCCTCAGCGCCATCTATGATTCGGACGAGCCGGCTCACCGCTAT
CTCGCCAATATACGCACCGTCAGCGAATCCATTACACGGAACTTCGGCCAGCCCGCACAC
GTCACTGACGAGAGCGACGTCTAA
Protein sequence:
MRVGIHTGRVLCGVLGLRKWQYDVWSNDVTLANNMEAGGEPGRVHITQATLECLGGAYEV
EPGHGASRNAYLRDHSVQTYFIIPPPRRRKMCLSAGVGLGSGSRRKLSFKNVSNVVVQLL
HSIKFNVDVPFSNMAASPQELKANAARKVLDLRRALHAEPGSAEALRLAALRGDHVSAPP
PAPAAPAAPAHAPHHHTFDAVMQHHALRTHATNKVTEKFKRPLKKRHSSVYHQPTNRVNK
YLAQAIDARSVHREKATHVHLLTLCFKEGSDKEAQYRASTDGGWAGSLSAALGALAAAGA
LQAAILPRTTILLLLFVTAFAWSAAVLALTLAARLRLIPCDVSRPFALRNAITTFTIVLG
YAVGQVNVITCREIDVCKKISENTTSMEEVRSATGDVAAALWSSNDHLACPIPLYITLGC
CLSMLTVAVFLRLPILVKGILLAVMTAGYVAVILGFHRDIFDCYDLMTGTGPISSSYSSC
AWTIALALAVLLHARQTEWTARLDFLWQVQARDEKREMDALQASNRRILFNLLPAHVATH
FLDNQFRTNMDLYHQSYQRVGVVFASITNYHEFYMELDGNNQGMECLRLLNEIIADFDEL
LGEDRFGAIDKIKTVGSTYMAAVGLIPDKKMTDDTSTRKHMANLVEFVFSMRDKLKDIND
NSYNNFMLRVGINVGPVVAGVIGARKPQYDIWGNTVNVASRMDSTGLPNHTQVTEEVYQV
LKDMPYQFVCRGKVKVKGKGEMTTYFLTDRAPSNGNLHNPSNGQPQNPPTAYGGVATPLA
MLQNSARRTATQPSRLPPVREASVAGENEPLLPSNGYHNGNNHKGSKGRRNKESEDTPPP
PPPHGINGNPRWPPPRALVPPWPRPQETRPPAVHKRRPPARLPRPRSSESLPLARSPRVH
SSADELSSLTRSPSLSSSDESYSRTTDASPSPPRPTPWLPPHRSQRNDPNPSYDYPPVRL
NKPTPNFINEIYAKHKLNKKPSLDDKILDGNFGFQKEEEKLQRSIINMLQASVKRDSCCQ
TDKKDVPHRFTQRTSSFSSSGSRPNNLKHLNHDSREVFTKRSPSDVACVPPFEREIQRLL
EDKNLIKLNSPKSERKELKLELRSPHSSMELRNNNNNSSPLHAVGLAAITQLVRREPSPS
RPRPPPSRPSPLKPSADFPGVLPTDVIVELPSPTHKAEQNTGVQGSRSSEMTSSKDKQEK
EVQDRLTRIATSNHREMGLYGESQSEWSSSCSEGEGEGDGGQPESTGYTTDDPALENVSM
LNEAGLTDAEAALSDVNSCYLDRDDDVSSRASSRLLDSEALVSLESLSAIYDSDEPAHRY
LANIRTVSESITRNFGQPAHVTDESDV