New model in OGS2.0 | DPOGS214369  |
---|---|
Genomic Position | scaffold1894:- 26518-47048 |
See gene structure | |
CDS Length | 3246 |
Paired RNAseq reads   | 17 |
Single RNAseq reads   | 46 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA003982 (0.0) |
Best Drosophila hit   | CG3216, isoform C (0.0) |
Best Human hit | atrial natriuretic peptide receptor 1 precursor (0.0) |
Best NR hit (blastp)   | conserved hypothetical protein [Culex quinquefasciatus] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to ENSANGP00000014144 [Nasonia vitripennis] (0.0) |
GeneOntology terms    | GO:0004872 receptor activity GO:0004383 guanylate cyclase activity GO:0004672 protein kinase activity GO:0008528 peptide receptor activity, G-protein coupled GO:0016020 membrane GO:0006468 protein amino acid phosphorylation GO:0005524 ATP binding GO:0023034 intracellular signaling pathway GO:0006182 cGMP biosynthetic process |
InterPro families    | IPR001054 Adenylyl cyclase class-3/4/guanylyl cyclase IPR011009 Protein kinase-like domain IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR001170 Natriuretic peptide receptor, N-terminal IPR000719 Protein kinase, catalytic domain IPR018297 Adenylyl cyclase class-3/4/guanylyl cyclase, conserved site IPR001828 Extracellular ligand-binding receptor IPR001245 Serine-threonine/tyrosine-protein kinase |
Orthology group | MCL10071 |
Nucleotide sequence:
ATGGCTTCGAGATTGGACTCCCCGTTTGACTTGGAGCGTTGCGGACCAGCCGTAGATTTG
GCCATGGAGAAAGTCAACAAGAAGTTCCTGGCGCATCATAATGTCGAACTGCAAAAAGTA
CAGGGCAGTTATCCATCATGTTCTGGTGCGATTGCTCCTGGATTAGCAGCGGATATGCAT
TTCAAAGATGACGTCATAGCCTTCGTTGGTCCGGCTTGTGCCTTTGCCTTGGAACCAGTT
GCACGGTTGGCTGCGTATTGGAACACACCCATCATAACCGGGATGGGAGATCAGCCTCCT
TCAGAGGGAGAATTAGCTGCGCCTGCCAGTGTGGTCAGCCGAATGCACAGGCTTGTCAAC
TTACGTAAGGGAACTAGGCCCCAAACCCTGTTTAATGACAAGCAGAAGTATCCAACCTTG
ACCCGCATGTCCTACTGTCAATGCCGACTTCCTCGTGTCTTCACCAGCATATTCGAGAGA
TTTGGATGGTCGCACGTCGCACTGCTATTGGACAAATCCGACTTATTCTCTCTCACAGTA
GGTAAAAGTCTGGAATGGGGTTTGCGTAAAGAAGGTGTCCTGAAAGCCATTAGAGAGCTG
GATGGAAACGAAAGCGAGTCCTGCGAAGCGCTGCTTAAAGATGTCAGCATGTATGCAAGA
GTTGTAATACTAAGCGTCCGAGGCTCGTTAGTCCGAGAGTTTCTTCTTGCGGCTCATTCG
CTGGGGATGACGCGAGGTGACTGGGCCTTTCTGGACGTTGAGATATTTCAGGGTGGGTAT
TGGGGGGAGACGGGTTGGGCGGCGGGCGACGAGCGAGATGCGGCAGCTCGCGACGCTTAC
GAAGCCTTATTGCGAGTCTCGCTTAAACTACCCACAGGCGACCGTTTCGACGAATTCGCG
GACACGGTCCGAGCAAGGGCTAGGTTACACTATAATTACACTTTTTCGGATGGAGAGGAG
GTGAATTTTTTCATCGGTGCCTTTTACGATGGTGTATACCTGTTAGGGATGGCCTTGAAC
GAGACGTTGACTGAGGGCGGAGATATTAGAGACGGAAGAAAGATAACAGGGCGGATGTGG
GGCAGAGACTTCCATGGTATCACCGGTCACGTTCGGATAGACGCGGTTGGCGATCGGGAT
GCTGATTATGCGATATTAGATTTGGATCCTGTGACTGGCAAATTTGAGGTGGTTGCATTC
TATCACGGTTTAAATATGAGCTATAAAGCGGTTCCCGGTAAAGCGATTCATTGGCCGGGA
GGAAGACGAGCTCCGCCACCTGACAAGCCGCGATGTGGTTTCCTTGGGACGGATCCGATG
TGTCAAGGAGAAGCTCAGGCTGTTTTGATATACTGCTTTATTGGGTTGGCTGTTTTCTTA
ACGCTGGCAGTAACGGCCGGTTGTGTGGCGTACAAGCGAGTGCGTATTGAAGCTGAATTG
AATAACACGGCTTGGCGAGTCAGACCCGAGGAGGTTCTCGTGGAGGTGGGAGCAGGGCTT
GGAGCTGGTCCAGCGCTGCACAGCATCAATGAAGTATTAAAACTGTCATTGGGGTGGAGT
GGTCGCAGTAACTCAAGCTCTTCCAACGTTGCCCCACAACTTACACTGTCGTCGTTTACT
GTCGGCCTTTATAAAGGGAATAGGGTAGCTGTTAAGAAAATACACAGAAAGAAACTTGAT
CTCAACAAGAAACTGTTGTGGGAGATAAAACAAGCTCGTAACGTATCCCACGAGAACACA
GCGCGTTTCATAGGAGCGTGCGTGGACTGTCCATTAGTGTTCATACTTACGGAGTATTGT
CCGAAGGGATCCTTGAAGGATGTCCTCGCCAATGAGGAGTTGCAGCTCGACTGGAATTTT
AGAACATCGCTGGTGCATGATATTGTTCAGGGAATGTGCTACTTACATAGCGGGCTGGGG
GCTCACGGAAAATTGAGATCTTCAAACTGCCTCATCGACGGACGTTTCGTTCTCAAAATA
TCAGACTACGGCCTGAACACTCTTTGCACGCCGACGGACTTGATTAAAGACGACGCCTAC
TATTACAAACTGCTATGGACAGCACCGGAGTTGGTGGCCGGCAGCGTGTATCCTGGAGTC
GTTGCGTCACTCAAAGGGGACGTTTACAGTTTCGGCATTATTCTAGAAGAGATTGTTCTA
CGATCTGGACCTTTTCATCACTACACCGCAACTTTGTCAAATAAGGAGATAGTATCACGA
GTGTGTGGTCGAGAAACGCCTCCCTTTCGTCCGGTGGTGATGCCGGGAGGCGCCGGTGCT
GGCCCCGAGTTGCTAGAGCTGGCTGAGCGTTGCTGGGCAGAGTCCCCAGATGACAGACCA
AGTTTTGATACCATCAACGCTAATTATATAAAAGGATACTGCGACAACTTAATGGACGAT
CTCTTAAGACGTATGGAACAATATGCTAACAATCTCGAATCGCTGGTGGAGGAGAAGACT
GAACAGTTGTCATTGGAGAAGAGACGTTCAGAGGAATTGCTCTATCAAGTTTTGCCAAGG
CCTGTGGCTCAGCAATTAATGGCTGGTGAAGTGGTCCAACCAGAGAGCTTTGAGAGTGTG
ACCGTGTACTTCAGTGATATAGTTGGGTTCACGGAACTCTGCGCAGCCTCCACTCCCATG
CAGGTGGTGGATCTGCTCAATGACCTGTACAGCACCTTCGATAGAATCATCGGCTTTTAT
GATGTCTATAAGGTGGAAACGATAGGCGACGCGTACATGGTAGTGTCAGGTTTACCTGAA
CGTAACGGAGATCTTCACGCGAGAGAGATCTGTCTCATGGCCCTCGCCATCGTGCAGGCT
GTAAGGACATTTGTGGTTCGTCACCGACCACCTCATAGATTGGAGGTGCGTGTTGGCGTA
CATTCTGGACCAGTCTGCGCTGGTGTGGTCGGCGTCAAGATGCCACACTACTGTCTGTTT
GGAGACACAGTTAACACAGCCAGTCGAATGGAGTCCACGGGACAACCCCTGCGTATCCAT
CTAAGTGAGAACACTAGGTTGCTGTTGGAACAGTGGGGCACATTTATAGTGGAGCGTCGC
GGGGAGGTCGAATTGAAGGGTCGGGGTCGGATGCTGACTCATTGGTTGTTGCATTGTTCT
GAGCAAGAAGCGCGCGTGGTGACCCCGGATCCTCAACCACCTCAATACCCTATACTGTTC
CCCGCACTGCCGCCTCTGATGCACGCTCCATATTTGGTTGTCGATCCACCAACCCTGGCT
GCTTAA
Protein sequence:
MASRLDSPFDLERCGPAVDLAMEKVNKKFLAHHNVELQKVQGSYPSCSGAIAPGLAADMH
FKDDVIAFVGPACAFALEPVARLAAYWNTPIITGMGDQPPSEGELAAPASVVSRMHRLVN
LRKGTRPQTLFNDKQKYPTLTRMSYCQCRLPRVFTSIFERFGWSHVALLLDKSDLFSLTV
GKSLEWGLRKEGVLKAIRELDGNESESCEALLKDVSMYARVVILSVRGSLVREFLLAAHS
LGMTRGDWAFLDVEIFQGGYWGETGWAAGDERDAAARDAYEALLRVSLKLPTGDRFDEFA
DTVRARARLHYNYTFSDGEEVNFFIGAFYDGVYLLGMALNETLTEGGDIRDGRKITGRMW
GRDFHGITGHVRIDAVGDRDADYAILDLDPVTGKFEVVAFYHGLNMSYKAVPGKAIHWPG
GRRAPPPDKPRCGFLGTDPMCQGEAQAVLIYCFIGLAVFLTLAVTAGCVAYKRVRIEAEL
NNTAWRVRPEEVLVEVGAGLGAGPALHSINEVLKLSLGWSGRSNSSSSNVAPQLTLSSFT
VGLYKGNRVAVKKIHRKKLDLNKKLLWEIKQARNVSHENTARFIGACVDCPLVFILTEYC
PKGSLKDVLANEELQLDWNFRTSLVHDIVQGMCYLHSGLGAHGKLRSSNCLIDGRFVLKI
SDYGLNTLCTPTDLIKDDAYYYKLLWTAPELVAGSVYPGVVASLKGDVYSFGIILEEIVL
RSGPFHHYTATLSNKEIVSRVCGRETPPFRPVVMPGGAGAGPELLELAERCWAESPDDRP
SFDTINANYIKGYCDNLMDDLLRRMEQYANNLESLVEEKTEQLSLEKRRSEELLYQVLPR
PVAQQLMAGEVVQPESFESVTVYFSDIVGFTELCAASTPMQVVDLLNDLYSTFDRIIGFY
DVYKVETIGDAYMVVSGLPERNGDLHAREICLMALAIVQAVRTFVVRHRPPHRLEVRVGV
HSGPVCAGVVGVKMPHYCLFGDTVNTASRMESTGQPLRIHLSENTRLLLEQWGTFIVERR
GEVELKGRGRMLTHWLLHCSEQEARVVTPDPQPPQYPILFPALPPLMHAPYLVVDPPTLA
A