| New model in OGS2.0 | DPOGS211445 |
|---|---|
| Genomic Position | scaffold608:- 2720-9286 |
| See gene structure | |
| CDS Length | 3414 |
| Paired RNAseq reads | 164 |
| Single RNAseq reads | 457 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA002197 (0.0) |
| Best Drosophila hit | CG34357, isoform A (0.0) |
| Best Human hit | retinal guanylyl cyclase 1 precursor (2e-138) |
| Best NR hit (blastp) | receptor guanylyl cyclase GC-II [Manduca sexta] (0.0) |
| Best NR hit (blastx) | receptor guanylyl cyclase GC-II [Manduca sexta] (0.0) |
| GeneOntology terms | GO:0005575 cellular_component GO:0023034 intracellular signaling pathway GO:0004672 protein kinase activity GO:0006468 protein amino acid phosphorylation GO:0005524 ATP binding GO:0004383 guanylate cyclase activity GO:0006182 cGMP biosynthetic process |
| InterPro families | IPR001054 Adenylyl cyclase class-3/4/guanylyl cyclase IPR011009 Protein kinase-like domain IPR001245 Serine-threonine/tyrosine-protein kinase IPR011645 Haem NO binding associated IPR020635 Tyrosine-protein kinase, catalytic domain IPR002290 Serine/threonine-protein kinase domain IPR000719 Protein kinase, catalytic domain IPR018297 Adenylyl cyclase class-3/4/guanylyl cyclase, conserved site |
| Orthology group | MCL11108 |
Nucleotide sequence:
ATGCTGCAGCCTCTCCTGCTGGCGCTGGCCACAGCTCGGCCTCTCGACACCGACCACACC
AACGACACACAGCGGCTCTTGATAGTGGCACGACAAGCTTGTCACGCCGACGACCCTACC
CTCTACTCTGCGGACCTGTTCTCCGCTCATCTCACACAGTATGCGCCGTCTCAGCTCCGG
ACTCGTCCTTTCCGTCTTCTTAATTACGAAGAGACCTGCGGCCCTCGCTGGTCTGAGGCG
GTCCTGGTGGACGTGTTGCGGTCGGTGGGCGCGGGCGGGTCCGTGGTGGGCGCGGGTCGT
GTGGGCGGTCGTGTGTGTGGTGGCGTGTCCCCGGCCCTGCTGTCTCTCGGACGGCCTCTC
CCTGGGTCGTGCTCTGAGTCCCCGGCTCGTGCCGCGGCCGTCTCTCTCTTGGCTCGGTCT
CTGGGCTGGCGGCGCGTCTCTCTGCTCGTGACCGGAGTCCTCGACGAATGCTCAGCCGCT
CTTCTTCGGGTCCAAGAGTCTCTCGTTACGTCCGGTGTCCTCGTGAAACGCGCACTTCCT
CGACACCTCGAGGACTCTTTCTCGATCCGTCCCCACGCTCTCATTATCTGTGGTTCGGCG
ATGACGGCCGCGATACTATCAAGAAATGTGAATAAAATTCAGATACTTATCTTAAATGTA
ATAGATCCTGAAGTAGAGACCTCTTTGAAAGGTAATGGAACGAAAACTATCGACAAGCAA
TCGGCTAATGTTACAGGCAAAGAGAGATCAATGTATCAGAAGTTTCATTTCGGCGAGCTT
TCTAAAGACAGCCTTAATGTTATCAGAGAGAAGCCATTACTCCTGCTGAGTGACAGGCAG
TTCGAAGTTCAGCACCTTGCCAAGGATAATTATGATGAAATAATTAAGGCCCTTTTAAAC
TTCAGGGAAGCGGAGATTACCAGAATGGAAAAATACCATCATGTTTTTCATTTATATAGT
AGTATAACTAAGGAAAACGATTTGTTCTGGAAGCAAAGAGCAACACTTAATATTACAACT
GAGAGATTGTTAGATAATTATACGTCACACTCCACACTCGTGAATATCGACGCCCTGAAA
GAAACCGAACTCGAGGAATTTAAACTAGAGGGCGCATTTGACGAAACGGTCGACGCGAAG
GTCTCCAGCGGTACGGACGCAGCCTTGCACATGACGGTGTTCACGTTGTTCGTCACCTGT
ATCTTGATCCTCATCCTCACCTTCGTCGTAACATGCCTCAAACGGGTGTTTGTCAACCGT
ATGCCGAAACGTTCTCGTGCAGTTCCGGTTCTTGCTTCCACCGACTTCCAGTTTCCATCG
GATGAGGGACGACGTGTGGGCGAGGGCATGGAGACGATGCTCACGTGGCTTCAACAGCTG
CACGAATTCGGAAGCTCGGAACCGGAGCGACCCGACTTACTGAAACGGCCCGAACCCTTG
GGGCAGTCCGCACCCTCCTCTACGTGCAGCATTACACGTCTTCCATTGGACAATCGTACC
AGATATAAGGGCGACCCAGTTCATATGAAATATTTACCTGCGGCTTCACTCGAGTTGCGT
CGCAAATCAATAGACGTTTTACTCACGATGCAGAGCCTTCGTCACGAAAACGTAAACTCC
TTCATAGGATGTTTGACGGAAACAAGACCAGCTCTCGTGTTCGAAGCTTGTGGGAGAGGT
TCTCTAGAAGACGTCCTCATGGCCGACGACATCCGGTTGGATTGGACGTTCCGCCTGTCG
CTGCTAACGGACCTGGTGCGAGGGATGCGCTACCTCCACTCATCGCCGCTGCGTGTTCAT
GGTCGACTCACTTCACGTAACTGTGTAGTCGACTCCCGATGGGTGTTGCGTGTCACCGAT
TATGGGATTCCATCGTTCACAAAGACGCAGTCACTGCCGCACCCTCCGCGTACCGCACGA
GAGCTGCTGTGGACGGCGCCGGAGCTTCTTCGTGAAGCCGATTCAGGTAACGTCATCTGC
GGAACGCAGCCGGCCGATGTGTTCTCTTTCGCTATAATCATGCAGGAGGTTATTGTCCGT
GGAGAGCCTTACTGTATGCTTCCTTTTACGCCGGAAGAAATAATAGAAAAGTTGACTCAT
CCCCCGCCTCTTATAAGACCGTCCGTGTCCATGAGCGCTGCTCCCCCGGAGGCAGTGAGT
GTGGCACGTCAGTGCTGGAGCGAACAGCCTCATCTACGACCAGACTTCATACAACTCTAC
GAGGTGTTCCGACACATGCATCGAGGACGAAAAGTCAACATTGTAGATTCTATGTTCGAA
ATGTTAGAGAAATACAGCAATAATTTAGAGGAATTGATAAAGGAACGAACCGAGCAGCTG
GACATGGAGAAAAAGAAAACGGAGCAGCTCCTGAACAGGATGTTGCCCAGAACAGTAGCC
GAGCGATTAATTTTGGGTCTCCGAGTGGAGCCGGAAGAGTTCGAGGAAGTATCCATCTAC
TTCAGCGACATCGTGGGTTTCACATCAATAGCAGCGCGCTCCACTCCCGTCCAGGTCGTT
GACCTGCTCAATGACCTGTATACCACCTTCGATGCTACTATAGAAATGTACCGAGTCTAC
AAGGTGGAAACGATCGGTGACGCGTACATGGTGGTGGGCGGGCTGCCGATCCGCTCCAGC
GACCACGCAGAGAGCGTGGCGACCATGGCGTTACATTTATTACACTTGGCGGGACAATTT
CGAATTCGACATCTGCCAGCGTCTCCTCTACATCTCCGGATAGGGCTCCACACGGGCGCT
TGTTGTGCGGGAGTGGTGGGACTCACTATGCCACGGTATTGTTTGTTTGGTGACACGGTC
AACACGGCTTCCCGCATGGAATCCACAGGAGCGGCTTGGCGAATCCAGATCTCGTCGGCG
ACGGCAGAGAAACTCGCAGCGGCCGGCGGCTACAGGCTTCGCTCCCGAGGACTCACGCAG
ATTAAAGGCAAAGGCGTCATGCACACCTTCTGGTTACTCGGAAAAGAAGGCTTTGAAAAA
ACTCTGCCGACGCCACCGCCGTTGAAATCGGAAGAAGTTCTCTTTGAAGCAGAGAGCGAG
AACGACTGTGACACTAACGAGGCGCCACCAAGCGAGGGACATAACACTAGCCTCACACAA
TCCGTGGAACGACAACGTTCCGATCCATCTCCGACAGTCGACAGATTTTCATGGCGAAGG
TCTGGTGCAGTCTCCGCGGAGAGCAGCCCGCCAGGACCGACCTCATTGCGAAATCGATAC
TTACGTTCATCCGTGTCCACTGTGGCAGGCTTAGTCGATACACCGCGCCTATCGGATCGG
TGGACTACATCAGGATCGCGCGTGCTGCGGCGTCAGTGGTCGCTGGAGCGCGGGGACGAG
CCTCGTTACCGGACCCGGCGCGACCTCTCCACTCCCGACGCGTCCGCTCGCTGA
Protein sequence:
MLQPLLLALATARPLDTDHTNDTQRLLIVARQACHADDPTLYSADLFSAHLTQYAPSQLR
TRPFRLLNYEETCGPRWSEAVLVDVLRSVGAGGSVVGAGRVGGRVCGGVSPALLSLGRPL
PGSCSESPARAAAVSLLARSLGWRRVSLLVTGVLDECSAALLRVQESLVTSGVLVKRALP
RHLEDSFSIRPHALIICGSAMTAAILSRNVNKIQILILNVIDPEVETSLKGNGTKTIDKQ
SANVTGKERSMYQKFHFGELSKDSLNVIREKPLLLLSDRQFEVQHLAKDNYDEIIKALLN
FREAEITRMEKYHHVFHLYSSITKENDLFWKQRATLNITTERLLDNYTSHSTLVNIDALK
ETELEEFKLEGAFDETVDAKVSSGTDAALHMTVFTLFVTCILILILTFVVTCLKRVFVNR
MPKRSRAVPVLASTDFQFPSDEGRRVGEGMETMLTWLQQLHEFGSSEPERPDLLKRPEPL
GQSAPSSTCSITRLPLDNRTRYKGDPVHMKYLPAASLELRRKSIDVLLTMQSLRHENVNS
FIGCLTETRPALVFEACGRGSLEDVLMADDIRLDWTFRLSLLTDLVRGMRYLHSSPLRVH
GRLTSRNCVVDSRWVLRVTDYGIPSFTKTQSLPHPPRTARELLWTAPELLREADSGNVIC
GTQPADVFSFAIIMQEVIVRGEPYCMLPFTPEEIIEKLTHPPPLIRPSVSMSAAPPEAVS
VARQCWSEQPHLRPDFIQLYEVFRHMHRGRKVNIVDSMFEMLEKYSNNLEELIKERTEQL
DMEKKKTEQLLNRMLPRTVAERLILGLRVEPEEFEEVSIYFSDIVGFTSIAARSTPVQVV
DLLNDLYTTFDATIEMYRVYKVETIGDAYMVVGGLPIRSSDHAESVATMALHLLHLAGQF
RIRHLPASPLHLRIGLHTGACCAGVVGLTMPRYCLFGDTVNTASRMESTGAAWRIQISSA
TAEKLAAAGGYRLRSRGLTQIKGKGVMHTFWLLGKEGFEKTLPTPPPLKSEEVLFEAESE
NDCDTNEAPPSEGHNTSLTQSVERQRSDPSPTVDRFSWRRSGAVSAESSPPGPTSLRNRY
LRSSVSTVAGLVDTPRLSDRWTTSGSRVLRRQWSLERGDEPRYRTRRDLSTPDASAR