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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_BomoSK_comp12061_c0_seq1
Scaffold_idBomo_Chr15
NCBI non-redundant
(nr)		PREDICTED:_anoctamin-1_isoform_X2_[Bombyx_mori]
Ontology
GO:0005227 F calcium activated cation channel activity
GO:0005229 F intracellular calcium activated chloride channel activity
GO:0005247 F voltage-gated chloride channel activity
GO:0005254 F chloride channel activity
GO:0005737 C cytoplasm
GO:0005886 C plasma membrane
GO:0006810 P transport
GO:0006811 P ion transport
GO:0006812 P cation transport
GO:0006821 P chloride transport
GO:0007200 P phospholipase C-activating G protein-coupled receptor signaling pathway
GO:0007275 P multicellular organism development
GO:0009897 C external side of plasma membrane
GO:0015111 F iodide transmembrane transporter activity
GO:0015705 P iodide transport
GO:0016020 C membrane
GO:0016021 C integral component of membrane
GO:0016324 C apical plasma membrane
GO:0034605 P cellular response to heat
GO:0034707 C chloride channel complex
GO:0035774 P positive regulation of insulin secretion involved in cellular response to glucose stimulus
GO:0042391 P regulation of membrane potential
GO:0042803 F protein homodimerization activity
GO:0046982 F protein heterodimerization activity
GO:0046983 F protein dimerization activity
GO:0050965 P detection of temperature stimulus involved in sensory perception of pain
GO:0050966 P detection of mechanical stimulus involved in sensory perception of pain
GO:0060438 P trachea development
GO:0070062 C extracellular exosome
GO:0098655 P cation transmembrane transport
GO:1902476 P chloride transmembrane transport
GO:1903959 P regulation of anion transmembrane transport
Transcript
Level		FPKM:1.27 TPM:1.28
ORF EntryO_BomoSK10140_complete:A_BomoSK_comp12061_c0_seq1
Sequence
(Nucleotide)
GTCCTCTTGGTCGCCGTGAGCCGCTAGGTCAAAGTCCGAGCCCGAGAGCGAAGCTATATG
GTTCCAGTTTGGCTCGGTAGTGTCGCCTTGCGAGTCACGCCCGGCCTGCGAGCGCGCGCG
AGTCTCCTCCAGGATGTACGAGTTGATGACGTAGGCCTCGCGCCGGATGCGGTCCCGGAG
CTCGCCCGACATGTCCGGGATCGCCCACTTCACTATTATCGTTCCCAGGGCCACTACGTT
CTCGAAGACGACGACGAAGGCGAGTCTGGCTCCGATGATGTGCCAGTACCAGGTGCTGTG
CGCATAGTCCTTGCCGTTCTTATAGTCCCAGTAGCCGGGGAAGCTGCACATGGTCCCCCC
GTACGTGGAGTTGAGCGGCGGGTGCTCGAGCACGGTGATGTTGAAGTCGGCCAGCGTGTT
GTTGACGTACTGCTCGAGCGAGCCGTGCGTGAACGCGTACACCAGCCGCGGGATGAACTC
CGACGTGAACGCTATTATGAAGCCGTTGGTGATGACGCTGAGCTTGCCGATGGAGTCGAG
GATGCGGTACCAGACGCCGATGTCGGTGACGCGCTGCGGCACGGGGCGGCGGAAGCACGT
GAGGAACTTGCGCGCGTCCAGCCGCATCTCCAGCACGTTGTTGATCAGCGCGAACAGCGG
CGCCAGCGGGAACGCCGCCACGAAGATCGTCACGAACCCGTACTGCAGGATCATTTCCAA
ATATTCAGGAAACAGTCCCATGTTCGGGAAGTCGACCAACTTAAAGTCTTTAACCCACTG
AAGCGGACTTTTTAACTGTCTCTTCCTGCCGATGGTCCTGATGATGTTCCACCAGGAGAG
CAGGTACGGCATCATCATCTCCACGATCGTGTTGATGAACTGCTTCCCGACCATTATTAT
GGCCAGCTGGATGGACAGCTCTAGAAGACAGCCTCCGGGAGCGCACTCCTCTTGTCTGTG
CCCGAAGAATCTAATATACTCTCCGGGTCGACCGATGATTTTCCCTTTGAAGAAAGCGAT
GTAGAATATCGAGGCGTAGTAGTTCACGAACTGGAGCAGGTATATCTTGAGAGTGAGCGA
GTCGTCGAACTCGGTCTGCGTCCGAAGCAGTTCCTTCTCCGTCAACCATTCGGCTAGGTA
CTGGTAGATATAGTTGAAGAGGAAGATGAAGCACAGGTTGATGCAGGCGGCCGTCGCGGT
GGTGAACATGATGGGGCTGTACGTGATGAGCACGTTGTCGTTGTGGCGCAGCACGGCGGC
GCCCAGCAGCGACATGCGGTACAGCACCACGCCCAGCACGGTGGCCAGCGCCAGCAGCAC
CAGCAGCGCCACCACGCTGAACGACATGAGCGTGGCGGGCAGCCGCATGCGCCAGAACGG
GACCATCGGCTCGTTCTCGCCCGTCACCACGTTTAGCTGTCGTCGCTTGACGTGCGCGAG
GCGCGCCAGGTACTGCGGGCGCGGGTGCTCCTCGTACACGTCGAACCCGGTGAGGTCCCA
GCGGTGCGTCATCTCGGCCGAGTAGCGCTTCCAAAGCTCCAGGAAGCACGCCGCCCAAAA
GCTCATGAATATGGCGAAGAATACGGTGGTGGAGTTGTCGAAGAGGTACGTGATGCGTGA
CTGCAGACAGGTCGCCTTCAGATCCCAGAACTCGCAGAAGTAGTCGCACTGCGGACACAT
CTTTATCGTCGAGTTGTAGTTGCAAATGTCTTCACTCGGTTTGTTGGAGTACACGGTCGC
GGCCGAATATATGAAACAGATGAGGCCGACGAGCGAAGCCGGGATCAACATGTGCGTGTA
GAAACCGAGCCAAGCAAAATACAGTCCTATTTTAACACCGAAATAATCTTTTACGTAGTC
TAGCGGTTGGTATTTGAGGCATTTAGACACAGCCGCCCATTCCGTGTACAGCAAATATCG
CATCGAACCCGGTGTTTTGAGATCACCATCGTGTAAGGGATAGGCCGCGCTATAAGTACA
GTTTGATATGAGTCTGTTGATACCGAATGCGAAATCGTCACCCGGCTTCGAGAACTTCTT
CCTGTCCAGTATGAATTGAACTATCCTAGAGCGGATCGAGGGTGTCCAGAAGCATTCTGA
TGTTGTGTCGAATAAGTATTCTTTGTCTTTGGAGTAAATAGCGGTTAGACGATGTCTTCT
TTCAGGGAACAACTCCGGATCCACCCTTATCTTTGATATGAACTTATCCCAAGTAGCCTC
AACTCGATCTATGAAATTACTAGTCTTCACTGCTGAAAACTTCATCGGCATCCTTAATTT
TAATATCTCACTGTAATCTCTCAGGACATCGACCGGCACGTGTATCTTAACAAAATTCAG
TCCATAAAGTCCCTCCGGCTCCTCCCTTTCTAATTGCAAGCCATCGTGCTCCAGATTCTG
CTCAAAGATCCTCCTCTGCTCGTAGGCTTCGGGTGTGGTCGCGTCGTTCCTACCGCTCTC
CCAGACCAGCACGTAGTCGATCGAACGAACGCCATCGTTGAACGTCAACGAGGGGTTATT
GTTGATACCGCCCATAACTATTGAGCAATGGTTGGCGACGGGTTTGCCATTGGGTTTCGT
TAGTTGGGGCTGACCGCAACCGACTTCTTCGGCAGCGCGGGTAGAAGCTTCGCTACCGTT
GTCCCGGTCGGTATTCATGTCTTGGGAGAGGTTGTCTTGGTAGTTGCTTAGCACTGACAT
CGCGTGGATGTCACCGATCTTCTCTTGAGCCGCCTTCTCCGTTTCGTGAAATGCATCATC
TCCATCCTGGAAGAGTTGTTGGAATGCAAGGTCATTCCTCTGAGAGTCTGAGAGGAAGGA
TTCCGTTTCAGCAAGATCGGTCCTCTTGTGCTGCAGTTTAACACCACCGGCGTATATCGG
AGTGGTTATCTTAGGCGTGAAGACATTCTCTTCTACTTTTACCAGCAGAGGCTTTGGTAC
GTCCTCTTCAAGCGATGGGTCTCCGTCGGACATCACAATTCACAATATTCACCGAGAACT
CAGCGTCATGTCAACAAACACTAACCAGTCCGTAACTTCTCTCAGAGATTAGTCACACAC
AATAGAAACAATAAGATTTATCTCGAAATAATTTTCTTGGATACCTATTTATGAACAACG
AACAAGTGAACGTGCGGCGGTAATACGAAAAATGACTTAAAAATACCCACAATTTTAATT
ATGTTTTTTAAACAGGCATATAGTAATCGGCAAACTTCTTG
(3221 bp)

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