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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_BomoN4EE_TR30063_c1_g1_i2
Scaffold_idBomo_Chr15
NCBI non-redundant
(nr)		PREDICTED:_adenylate_cyclase_type_8_[Bombyx_mori]
Ontology
GO:0000166 F nucleotide binding
GO:0004016 F adenylate cyclase activity
GO:0005515 F protein binding
GO:0005516 F calmodulin binding
GO:0005524 F ATP binding
GO:0005622 C intracellular anatomical structure
GO:0005886 C plasma membrane
GO:0006171 P cAMP biosynthetic process
GO:0007189 P adenylate cyclase-activating G protein-coupled receptor signaling pathway
GO:0007193 P adenylate cyclase-inhibiting G protein-coupled receptor signaling pathway
GO:0008022 F protein C-terminus binding
GO:0008294 F calcium- and calmodulin-responsive adenylate cyclase activity
GO:0009190 P cyclic nucleotide biosynthetic process
GO:0014070 P response to organic cyclic compound
GO:0016020 C membrane
GO:0016021 C integral component of membrane
GO:0016829 F lyase activity
GO:0016849 F phosphorus-oxygen lyase activity
GO:0019933 P cAMP-mediated signaling
GO:0035556 P intracellular signal transduction
GO:0046872 F metal ion binding
GO:0047485 F protein N-terminus binding
GO:0071277 P cellular response to calcium ion
Transcript
Level		FPKM:0.25 TPM:0.34
ORF EntryO_BomoN4EE12070_complete:A_BomoN4EE_TR30063_c1_g1_i2
Sequence
(Nucleotide)
TTAAATAATAATTAAATTTAATTAATATAAAATAAAATCGCTTAGCGAATTACATATCCC
TTATATAGTAATAAGTAAATTTCATGATCGACATGTTTCGATTAAAACAAATCGATTTAC
CTATTCGATACTAATAACAAAAAAAATCATTATCACTAAATAGACGACACAGTTTCATGT
TTCACTACATTTTAAAGGAACTTTTCTTCATTAGATGACTCAGGAAGCTAGGTTCACCTT
CTTTAAGTATTCTCAACATTGTGACATTCAAAATGTCGATGCTTTGAGAATATAAACTAT
CACTATTACCTGATTCAACTTTATTTATGTCCCAAAACCAGAGTCACTCGATTAATTGTA
TCAAAATTGCATCTAAACTCATGTACTACCAATATGCTGCCAATATTACATATATGTTTA
CACATTTTATTTAAGTGTGGCCAACAAAAAAAAACTACGGGAAAATATCAAATTAAAATT
ACGTCCTTAGTACCCGTACATACTATAATTCTGTTACATTTTGGTGGTGTAGGCGTCACC
GTTTTCCACTCCTTCACTCCTGGTTTCAGTATCTATTTGCTCTTTGCTCCTCTTGTCTTT
GTTTCGGCTTCTGAAGAACGACGCTGTCGTCACCGACCTGATGCGGAACGAGCCAGGCGT
TCCGTTCGCTAGTGATGTACCGGATCCCTCGTTAGGCTGTTCCCGGATCTTGGGAGACTT
ATCTCTGGGCCGCGACCGGAATGTGAAGCTGTTAGCTTTCAACCGGGCTATCCTGGTGAT
GGTGGACAGTTGCGGGGGGTCGGGGGGCGGCGGGCAGTGCGTCGCCGTCGGAGTGTGCGG
CGCCGACGCGGAGTGACGACCCAACGCCCTCAGCTCCGTGTCCGCGTGGCGGTCGTTGTG
CCGCGTGCGCGCCCGCCGCAGCTCTGAGCGGCGCCGGTTGGAGCCGCTGGGCGCCGTGTC
CACGCGGGTCGGCCGCATGCTGTCGCTTCGATTCACGATATGCGTAGCATCTAGTGGGTG
CGTGTAGATGCGCTTTCTCGCCTGCAGCATAGTGTAGACGAGCGCGGCGAGGGAGCGGGG
GTGGGGCGCGGGCCGGCGCGGGGGACGCGGGGCACCCCGCCTCGACACCACCCACCACGT
CTCCATGCGCCCCTTGCCCTTCACCTCGACGCAACCACGGCGCTCCACGCCGTATCCGCG
GACCTCCAACAACTGTTTAGTATATTTGGTGACTTGTATCTTGTCCATAGCGCCTGTGCT
CTCCATTCTCGAAGCTTCGTTCACAGTGTTCCCCCAGATGTCGTAGACCGGTTTCAGAGC
ACCGATTACGCCGCCCACCAAAGGTCCGCAGCTGATACCGACCCTGAGGCGAAATTTGTT
GAAGCTGTGCTTGTTGACGTCATCTAGAGCCTCGCGCAGCGCAAACGCGTAGTCCACGAG
CGCACACAGGTGCGCGCACTCGTCAGCACCAGACTTAACATCGGGGTCCAGTCCGCTGGC
GGCCATGTAAGTGGCTCCGATGGTCTTGATCTTCTCGATGCTCTTGAACCGCTCCTCCAT
CAACAGCTTGTCGAAATCAATAATTATCTCGTTGAGCAATCGCATGCAGTCGACGGCCTT
CGTCTCCGAATAGAACTCGTGGAAGTTGGGGATGCCGGCGAACATCACTCCCACCTCGTC
GCGCCACTGCGAGTACAGTTCATTAGGACACCGATCTTTACTCAAGAAGTGCGTTACAAC
ATGGTCGGGTAATATGTGCTTCAGCAGATGTCTGTTGATTCTCTGCGTGTCCTCCATTTC
TCCGAGATCGGTTTCCGCTTGAAGTTTCCAGAGAAAATCGAGACGTGACGTCACTTCCAC
CAGCCGCCCGTGGTAAATGACAACGGCGAGGAACATTGCCATTAGTATTAACATTTGGAC
ATACGCTGGCAGTTGATTTGTAGCACCCTCGTTCGTGACGAAATAATAAACGTCGTAGTT
CTTCAAGAGCAAAACGCAGAACATGAGAACGTCTATGATGGCCAGTAACGTTTTGATCTG
GTAGTGGAGTTTCAGTACTGACGTCAGAGCGACCAGGCACAAGACCCACGTGTAAACCAC
GTATTCCGGACGATAACATTCGCCGGCTTCGACCGCGCACATCGTCGAGTTTGTATCCTC
ACAGAACGTGGTGTTTAACGTGTAGCTTCCATTGTACGATGTCGGCGGAAAAGATGACGG
ACAAACGTACAGTTTTATTGTGCTGGACACAGACATAATCATGATGAAACAGCAAATATG
TATGTTTCTCCTGAGCGTGGTCGCACTTAGAGCAGCCGAAAACTTTGCCAGTCGCGGCGA
CAGTCTCGGGAATTCTTCCATCATAACCAGCACGAATGATATCACCAGCGGGATTGTCAT
GTTCGCCAATATTATCATCAGGATCCAGCAATTGTAATGTATGACCGCCTGGACGGCTAC
ATTGAAGAGCCAGAGCACGAAGCAGCAGAGCACGTTGGACTTGAAGGTCCGTTCGTCTAG
CTCTCCGAAGCTGCGTTCGAGGGACGCCCGTCTGAACCGCAGCGAGACCGCGCGCATGTT
GTCCACGCGCATCCGGCGATTGCTTTCCACCTCTATCGAGTGATTAATAATATCGCCTTC
TTCAACATCTGAGACTGCGGCGTCCTCCTCCACCTCCGCTTCTTGACCCACTCGGAACAT
GTCCAACCGTGCCCTTGTAGTCGTACCACCAGTTAAGTAGTTCTGAAACGGCATTTCCGG
GGTCCAGTCGGTCGTGGTTTCGTCATCGATGCTGCCGCTTGGACGACGCGTCGTTGTTGT
CCAGATCTGCTGGCTTAAGGGAAAACCGTTGCGAGAAGGGTGCCTGGCTCTCCGAGGCTG
CTCCGTCGCTTTTATCAGGTAAGTGGTGATGTTTTGTTCTTTGATGTAAGGATCTCTGGA
GGCTCCGTCACCAGGTTCCACCTCGAAAGCACCGCTCAGGCACTCATATGTTGCTGACGA
AATGTGCACTCGTCCGGGCAAGCCCCCGCTCTCCATGTGGTTGGCGAGTGTGACGTCATA
GGACCAGAGGTCGAACTGCCACTTGAGCAGACCTAGCACCCCGCACAGCACCGTGCCGCT
GTGGATGCCGATACGCATATCCAGGTCCACCTGTGTATTGTAACGGACGTCACGGATAGC
CCGGATCATATGCAGGCCCATGTTGACGCAATCGTACGCATGTGAGGCGCGTTGCTCCGT
CAGTCCACTCACGCAGAAGTAGCAATCACCGAGTAACTTGATTCGGAGACAATGATTCTC
CGAAGCCAATTTGTCGAATCTAGCGAACAATTCATTCAATAATTTGACCAATTCTTGAGC
GTTGCACTTGCTTGATAGCTCAGTAAAACCCTTTATGTCTGCGTAGAGTATGGACACGTT
TTCATGTCTCTGTATGTAAAGATTGTTGAATTGCTGCTCTTGGAAATCCCCTTTCACCTT
TGAAACATGGCTGTAGATCTCCTTGGCTAAGAAGTCTGGGATTACGCTCTGAAATAAGTT
CCATTGCTTGTCGCTCTCTGTTTTAGTTCGTTGTCTGGTAACCATTGAGCGATGGGTCTC
CAGAAAGGCTTTTCTCTGGCCCCAATCAGCTAGTGATTTGGCGTACATACCCGCAAAGTT
TACAGCAATGTATAGAAGCGCATTGCCGGTTAGCAGACGGATACTGCAGGAACTGGCCGC
CTGAATCATGTTATTTTGTTCCAGGTTCTCTATGTCCACAGCTGTCGCGAGGATGTGAGA
CAGAAACGATAGAATTCCAATCACGATGCACCACACGAGGGAGAGTGGAAGCATCGCGTA
TGGAACAAACACCACGAACAGCATATACCAGACCTGGTTTTGAGGAGTCTGGAAGCCGAT
TCCCTGTCCGCTTATACCTTGAGCAATTAACAGTATCCAGGTAGCCGCTGCTGCCCAGTG
CAGGTAGTTGTTGGCGAAACACCGCCAGCATCCGAGCAGACAGACCCCGATGTTCAGCCA
CGCGAAGGCCACACTCCAAACTATTTTGTGAACCATGTCCTGGATCGGTGTTGGGTTATC
CCGCTGCGTTACTGTGTATATAAGCGCCAAACAAATCTTTAATACAAAATCGATTATATT
GACCATTATCAGTGATTTC
(4159 bp)

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