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Last updated: 2022/11/18
NameA_TrvaFAMAMG_TR13079c0_g1_i1
Scaffold_id
NCBI non-redundant
(nr)
PREDICTED:_atrial_natriuretic_peptide_receptor_2-like_isoform_X2_[Papilio_polytes]
Ontology
GO:0000166 F nucleotide binding
GO:0004016 F adenylate cyclase activity
GO:0004383 F guanylate cyclase activity
GO:0004672 F protein kinase activity
GO:0005515 F protein binding
GO:0005524 F ATP binding
GO:0005525 F GTP binding
GO:0005886 C plasma membrane
GO:0006182 P cGMP biosynthetic process
GO:0006468 P protein phosphorylation
GO:0007166 P cell surface receptor signaling pathway
GO:0007168 P receptor guanylyl cyclase signaling pathway
GO:0008074 C guanylate cyclase complex, soluble
GO:0009190 P cyclic nucleotide biosynthetic process
GO:0016020 C membrane
GO:0016021 C integral component of membrane
GO:0016829 F lyase activity
GO:0016849 F phosphorus-oxygen lyase activity
GO:0016941 F natriuretic peptide receptor activity
GO:0017046 F peptide hormone binding
GO:0019901 F protein kinase binding
GO:0030828 P obsolete positive regulation of cGMP biosynthetic process
GO:0035556 P intracellular signal transduction
GO:0042417 P dopamine metabolic process
GO:0042562 F hormone binding
GO:0043235 C receptor complex
GO:0048662 P negative regulation of smooth muscle cell proliferation
GO:0050880 P blood vessel diameter maintenance
Transcript
Level
FPKM:3.91 TPM:3.83
ORF EntryO_TrvaFAMAMG15980_complete:A_TrvaFAMAMG_TR13079c0_g1_i1
Sequence
(Nucleotide)
CGCGGTTGGACGTCGCGGGGAACGCACGTCACTTCGCTCTCGGAGTGAAAACTCGTGAAA
TATAATAATAGTGATAATAAAGTGTTGAAGTGATTACAGTGATAGTGCTCAGTGATTGGA
TAAAGTTTAGTGTCTATGATGCAATAACCAAAGTGATCGTGTGTTCACGATGTGTGCCTA
GAAATGTGGCTGCCTGCGTTTATCCTGGTGTGTTTTGTGCCCTGGGGTCTATGCCAGAAC
TGCCGGGGCGAAGAGCCTCGTCTGAGAGACTGCGATCGATTGTGCGATAAGAATGGAACC
TGTAAAATCAAGGCGGCTTTGCTGCTGCCGAAGAACATCACGTTTGGAGCTTGTCTTGGG
GCTGTGGAACCAGTCCTTGAACTCGCAATGCAGCACCCAGCAGTCAAGGACGCCTTCCCA
TCATCGGTGGAGTTCGAATGGCAGACGTATGACGTCATGGACTGTGATGCAGCCTACGCA
GTGATATCAGCTATAGACGCTTACAATGATTGTGCTCATGTGTTCTTTGGACCGGCCTGT
GACTTCGCTTTGGCGGCGGTAGCCAGGATATCCAAGTTCCTAGGAGGGACTGGTATACCT
CTAGTCACTACTGGTGGCTTCTCATTCGACTTCGTAAAGCCGAAGCAGACCTGCCAAGAT
GAATACTACATGCTCGTCAGGTCTGGACCAATGGGCTTCAAGGATCTGGCGTTCTTCATC
ATCGATTTGATGAAGCATTTCAACTGGCGGAAACTGCTTCTTATCAACGAACCTGAAGCA
AGAGTGTCCGTTGGGGGGCCAGCTACGTGTCATCTCATGATGAAGAGTTTAGCCAATTAT
CTGAAGAAAGAAGAAATAATCTACAGTCCGTGGGACACTACGTCCAATGGTGGGCTGAAT
TTCACCGAAAATCTCAAGTTGTACGTTGGGAATAAGTATGGAGTTGTCGTCTTGTGTGCG
AACCCAGCCACGGTCAGGGAGATAATGCTGGCAGCTGACGATCTCAATATGGTGTCATCT
GGAGAATATGTGTTCTTCAATATCGAATTGTTTTCTAATTTGGCATCAGCTTCTTCCAAA
GAGCCGTGGAAGTCTGAAAACGACACTGAAGAGAGGAATCAAAGAGCAAGACGAGCGTAT
AGTGCTGTCCTAACTGTCACAAGTCCGGCACCAGAGAAGAAGGAATATCTGGACTTTTCT
GATCAGGTGAAAGAACTAGCAGCCACAAAGTACAACTACACCTTCGGTAAAGGCGAAGTG
GTATCCACCTTCGTGGCAGCGTTCTATGACGCTGTGCTTCTGTACGCTTTGGCGTTAAAC
GATACTCTTCAGCAAGCGACCGACCCTAAAGGACAGTTGGATGGAGCTGCCGTTATGAGG
AATATGTGGAATAGGACATTCCAAGGTATAACGGGAGAAGTGGTGATAGATGACAACGGT
GATCGAGTTGCAGCCTACTCTCTACTTGACATGAATCCTAATACAAGCAAATTTGAGGTA
GTGGCAACTTACGTGGCAGCTAACAAGAGTCTCCAGTTCATCGAGAACCGACCCATCTAC
TGGGCTGGAGGCAGAACCTCACCACCGCCTGACACTCCTGAATGTGGTTTCGATGGATCG
CTTTGTCCTGATAACTCTTTACCGGTGTACGCCATTCTCAGTATTGTGTTGAGCTCCATA
GTCGTTATACTGGCTATTCTCTCGGTTTTCATATACAGGCACTACAAATTGGAAGCCGAA
ATCGCCATGATGACTTGGAGAGTCAGCTGGAGTGATGTTCTTCAGCCGGGAGGCCGTCTT
AGAGGAAGTTTACACTCCATTAACAGACGTTACAGCACTGGGACAACGTGTTCCGACGAG
GCAACTTCACTAGCCGGTGATCGCCAAGTATACACTCCTTGTGGCTTCTACAAAGGCTGC
CGGGTAGCCATAAAACGAGTTGACAAACAGCGCATAGACCTTACGAGACCTTTGCTACTA
GAGCTCAAAAAGATGAAGGACCTAGAACATGATCATTTGGCCAGGTTCTACGGAGCCTGC
GTGGACCCACCGCACTGTTGTTTACTAACAGAATACTGTCCTAAAGGATCTTTGCAGGAT
ATTCTGGAGAATGAGTCCATAAAACTGGATTGGATGTTTAAAGTCAGTTTGATGCATGAT
ATAGTGAAGGGCATGCACTATCTCCATAACTCCGACATAAAATCTCACGGAGCTCTCAAG
TCGAGTAACTGTGTCGTTGATTCCCGTTTCGTTTTGAAAATAACTGATTTTGGTATACAC
GCTTTGAGGACTTCCGAAAAGGATTCGAACGCTCACAGCTATTGGACCCGGATGTTATGG
ACCTCCCCTGAACTGCTGAGAATGGCTGAACCACCCCCCGAGGGTACGCAGAAAGGGGAT
GTTTATTCTTTCGCTATTGTCATGCACGAGATTGTCAATAGACAGGGGGTGTTTTGGCTC
GGACCGGGGATAGAATTTTCGCCTAAGGAAATCATCGAGACCATCATATCAAGTGGTCTT
CGTCCCAACACCTCCCACCATCGTTCTTGCGAGGCTGATGATGCGGCAGAACTGATGCGT
CGATGTTGGGCAGAAGATCCCACTGAGAGGCCAGATTTTGGGCACTTAAAAGGCGCTATT
AGGAGGCTCAACAAAACTCAAGAAAGCAGCAACATTTTAGATAATCTCCTTTCCCGTATG
GAACAGTATGCTAATAATTTGGAGACTTTAGTTAGTGAAAGGACGCAAGATTATTTGGAG
GAAAAGAAAAAATGCGAAGAGCTTCTCTACCAGTTATTGCCTAAGTCAGTGGCCTCACAG
CTGATCAACGGTCAGTCAGTAGTAGCGGAAACGTTCGAGCAAGTTACGATATACTTCTCC
GACATAGTTGGCTTTACCGCGCTATCTGCGTCCTCAACTCCGATGCAAGTCGTGGACTTG
TTGAACGACCTTTATACTTGCTTTGACTCGATCGTCGAGAACTATGATGTTTATAAGGTC
GAAACCATAGGAGACGCGTACATGGTAGTATCTGGTCTACCGGAACGTAATGGGACCAGG
CACGCGTGCGAGGTGGCTCGAATGGCGCTTGCCTTGTTGGACGCGGTGCGAAGGTTCCGC
ATCCGACATCGGCCTATGGACCAGCTGAAACTGAGGATTGGATTGCATTCTGGTCCCTGC
GTCGCTGGTGTAGTAGGTCTCAAGATGCCACGCTACTGTCTATTTGGAGACACAGTGAAC
ACTGCATCCCGAATGGAATCGAATGGAGAAGCCCTGAAGATCCACGTGTCGCCTGATACG
AAGGCTTTACTGGACACGTTCGGGACGTTCCATTTGGAGTGCAGAGGGGAGGTTGCCATG
AAGGGCAAAGGAATTCTAGTCACATATTGGTTATTAGGTGAAAAAATTGATCCGAACGCT
CCAAAAGAGAAGCCGTTGCTGATCAAAAACCAAACATTATCAACCGATAGCGGTTCCCTG
TCACATCTCACGCCATTCCGACAGCGAATGGACCAAAGCTCCCGATCCTCAAGCAGGCGA
GGGTCGGGAGTATTCCAACAGAAATCAGTAGACATCTCCAAACTGGAGAAAGAAACACAA
CCTTTACTACAAAATCTGGCTATGCAACGACAGTTATCTGATCCAACAGAGCCAGTAGCT
AACGGCATAAGCAATGAAGAATTAGACAAACTGTCTGTTTCAAATTCTATATCTTTAAAT
GTGAATTCACTTCATAATTCCGTGAACCATCCTCGAGTGAAACTGAAGGATGCTAATTCT
ATCAACCACAAATCAAAGGTAGGCAACAATAATTGGATTTCCAAAATGTCTACAGCCAGT
TCTTTTGATAACGGAACTAAGAAAGGCAGTGAGCGTCTCAAAGATTACAGTAGCGTTCCG
CTTTTGTCTAAAGAGACAGCTAAAGATTCTTTAGTGTAGGAAAATTGAGAGAATTTTGTG
TATATTGTACTATAGTTTATTCGCGTTATGGAAATAGTGATGTCGCTAATATTTGAAGGG
TACATGCAAAAAAATTGGTTGCCTGTAAAGTCGGTATACGGGCGAAAGTTTTAC
(4074 bp)

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