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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_BomoOtmSK_comp4564_c0_seq1
Scaffold_idBomo_Chr14
NCBI non-redundant
(nr)		uncharacterized_protein_LOC110380322_isoform_X1_[Helicoverpa_armigera]
Ontology
GO:0000166 F nucleotide binding
GO:0002790 P peptide secretion
GO:0005102 F signaling receptor binding
GO:0005215 F transporter activity
GO:0005515 F protein binding
GO:0005524 F ATP binding
GO:0005548 F phospholipid transporter activity
GO:0005794 C Golgi apparatus
GO:0005886 C plasma membrane
GO:0005887 C integral component of plasma membrane
GO:0006497 P protein lipidation
GO:0006810 P transport
GO:0006911 P phagocytosis, engulfment
GO:0007040 P lysosome organization
GO:0007186 P G protein-coupled receptor signaling pathway
GO:0007584 P response to nutrient
GO:0008203 P cholesterol metabolic process
GO:0008509 F anion transmembrane transporter activity
GO:0009897 C external side of plasma membrane
GO:0009986 C cell surface
GO:0010875 P positive regulation of cholesterol efflux
GO:0015914 P phospholipid transport
GO:0016020 C membrane
GO:0016021 C integral component of membrane
GO:0016197 P endosomal transport
GO:0016887 F ATP hydrolysis activity
GO:0017127 F cholesterol transfer activity
GO:0019905 F syntaxin binding
GO:0030139 C endocytic vesicle
GO:0030301 P cholesterol transport
GO:0030819 P obsolete positive regulation of cAMP biosynthetic process
GO:0031267 F small GTPase binding
GO:0032367 P intracellular cholesterol transport
GO:0032489 P regulation of Cdc42 protein signal transduction
GO:0033344 P cholesterol efflux
GO:0033700 P phospholipid efflux
GO:0034185 F apolipoprotein binding
GO:0034186 F apolipoprotein A-I binding
GO:0034188 F apolipoprotein A-I receptor activity
GO:0034364 C high-density lipoprotein particle
GO:0034380 P high-density lipoprotein particle assembly
GO:0034616 P response to laminar fluid shear stress
GO:0038027 P apolipoprotein A-I-mediated signaling pathway
GO:0042157 P lipoprotein metabolic process
GO:0042158 P lipoprotein biosynthetic process
GO:0042493 P response to xenobiotic stimulus
GO:0042626 F ATPase-coupled transmembrane transporter activity
GO:0042632 P cholesterol homeostasis
GO:0043231 C intracellular membrane-bounded organelle
GO:0043691 P reverse cholesterol transport
GO:0045121 C membrane raft
GO:0045332 P phospholipid translocation
GO:0045335 C phagocytic vesicle
GO:0048471 C perinuclear region of cytoplasm
GO:0050702 P interleukin-1 beta production
GO:0051117 F ATPase binding
GO:0055085 P transmembrane transport
GO:0055091 P phospholipid homeostasis
GO:0055098 P cellular response to low-density lipoprotein particle stimulus
GO:0055099 P cellular response to high density lipoprotein particle stimulus
GO:0060155 P platelet dense granule organization
GO:0071222 P cellular response to lipopolysaccharide
GO:0071300 P cellular response to retinoic acid
GO:0071397 P cellular response to cholesterol
GO:0098656 P anion transmembrane transport
Transcript
Level		FPKM:2.52 TPM:2.72
ORF EntryO_BomoOtmSK1089_complete:A_BomoOtmSK_comp4564_c0_seq1
Sequence
(Nucleotide)
GCAGGAACGCGTAGCAGAGCGACGAGGACATCGAGAGACACACTAACATCTTCAACTGGC
TGTTCATGACAGCCTCCAGGGACAAGATGAGAACGAAGGGCATGAAAGTGATCATGTAGG
TCAGCGCAGTGCACACCGCCGCTAGACTCGCCGAGGAGAACAGCTTAGACATCATGTAGC
AGAAACTGAGCACGGAGACGACGAATATGAGCAACAGCACCAGCAGCAGGGTGGGGTCTG
AGTGCGGCAGAACGCGGCCGAAGTGTAGAACTGCCGCCGCGCCGCACGCGCTCACCGCCA
GCTCCGCCGCCGTGCACGCCGCCCACGACAGTGACTGCCACCGCACCTCCACGCCCATCA
CGTACATCAACATAGTGTTGCCGGACTCTTTGTCGGAAACTATGAACCTTATGGCTGAAG
CGACGGTGAACACGAGCGAGAAGAAGAAGGCCACGATCAGCGCCTGGGACTCATACAGAG
ACGTTTGGAATAAATCTTTCCTGTAACACGGGTATGGCTCCTGTTGCGTGTACATCGCCC
AGTCCACTTCATCATCAGCGTCCCGCTTGTGTCTCTTCCTCGAGAGCTGGATGACGGCAC
GGTCGATCATATCCTGGATCTGAACGAAGCCGCGGAAGTAACGCATCTCCTCTACGAAGC
TGGACTCGGGTCCCGGGATCCAGAGATAATTCTTCGTCCATCGCGTTGCGGGAACATTTT
CATAATCCATTCTAATCTTATACTCCACATTCGAGAGAGAACCATTTTGTTGTTTCGTGT
TCATGAACACGATACCAGCTGAAAATTCGTCGAGTTGCGACAGTCTGGCGGCTTCGATTG
TCATCCCTTCTTCGTCCGTTGAGGGCTTGAATCGGTTCATGTTGAAGCAGTGGAGGAGGT
CCGATGCTTTGGACAGTAGACTGCCGATACCCTTTAAGTCTCCTAACTGGTCAAAGATGC
CATCAACATCCAAATCTGGAACGCCCACGTCTCCTATGATCATATTTCTAAGTCCTTCAA
ACTTGGGATCGGTGACCAGCGTTTTGAGGACTAATAGTCCGTGTCGGTGGTCCAGCATTG
TCTCCAGGGAGGGGAAGGTGGCGGCGAACGAATGAACTAAGTTCATCATTTTTATCATTG
TTTCGAAGGTCGCGTTCGCCTTTCCAATAATCATATTTACTGTCGGATTAACCGGAGTGT
ACAATATCTTTCCCATTATGAGCGGCTTTATGAAACTCCACACAATTTTCCCTCCCTCGA
CTTTCGTGATGTCAGTATATAGACTCCTGCAGAAATCGGTTGGTAGAACGTCGAGTTGTG
CTTGACTGGGCCCGTTTGAGTGATCTTCATTATTCAGGAAACCTTTCAGTAGACGAGGTA
CACTAGCTTGGAACGGTTTCCCGCAGAGCATTCTACCGGCGTCCGTCATGAAATCAGATC
CAGCAAGCAAGTTACCAATTGAACTGAAATTCTGCAAACTATGGAACAAAGGTTCGTTAG
CGAAAGTGCTGCTCAAGTCGGCCATGTTACTTTGTATGACAGGCAACAGTGCTGCCATCT
CTGGGTATTTTGTGAAAACTTCGTTTCCATTCTCTTGTGTTAGGTTCGAGGCGGTGTATA
GTTTTGACAGCAAAGTGTCCATTAGCTTTCCAATTACCACACTGAAGTTAAAATTCTCTA
ATAGCACAGGAACAATCCTCTTGGCTCTCTGGTCCGGTACTCCGCAGAATTGTTCCACCA
CCGCTCCCATCACATCCTCTGATGAAACCAGGTCTAGGTCGGATGGCACGATCACTTGAG
ACATTGCGTCAATTTGGCAAACAAAATCGGCAACGTGAGAGACTCGTTGTGTGAAAATCG
GTTTCAGTTCAAGATATCCGTCCTGGATCCTCGGCGCCGCCAAAGACCAGAAGTTTGTGT
TGTTGATGCCAACCGCAGACAGACTAGTTTCCATGGCCTCACTATCCGGAAAGTATTTTA
ATACTTGCAATTTAAGATTCTCCTCTTCTAATAAATAGTTTTTGAAGTCGCTCATTATCT
TCAATCCAACAGAAAGAGATTCCAGATCATTTTCCAGAGCGGTACCGGCCAGTAAAGGAT
GTACTTCTTGTATAATGCCCTGAAGACTATATAGCACACTGTGAACTATATCATCACTTA
AAATGGTAACCACCACATCGACTATCGATTCAAGTTTTCCTTCCATCGCTCCCTTAACGT
CGAGATCGCTGGCAACACCCAGCAGCCGAGCTGCATGAGACAGCACGCCCTCAATATGCC
GAATTATATTTGACATGAACGAAAACTTCCAAAATTCCTTGCTTTGAAGTTTTGGTAGAT
CAGTTAGAACGAGTGTTTCATTCAAATTGTTTTTGATTATCATCGCTATGACGGTGCAGT
TATGTTTACTGCAAACATGTCTCCATTTCATTGTATTCAATTTGATATTCTCGTCTGAAG
GCATTGTAATTTCACGTATCGATCTAAGATTTACATCCGAAGCTTCTATTTCATCAATAA
CATCCAAATCACTAATGACTTTATTAAGCTGCTCGTGAATATCACTATTAGCTTTGATAT
ATTTGTTTAATGGTCCCATAACATTTAATTTATGACCAATTTTATCGTGTAACTGATTTA
GATATTGAATGTCTTTTATTCCCTCTATTTCGTGTATATGTGGTAATGCAGACCGTAGGA
GATGAGCAATTTTTGATACAACTGATATTGATAACGCAGCATCACCGAATATATTTTTAG
TGACATTACTGGCGAGACATTCGCCGAGCCTAGTCGTGCTCGCGGTGATGTCCACTAGCA
GATGTAGTTTTACCAGCTCCAAAAACTCATTCATAGATTTATTCAGTTCGTATTTCGTGT
AATTTCTTGTTTGTATCAACTCCTTAATTGCCATGTCCCAATGGAAATTGTTCTTCAGGG
TGTTGTATATCTCAGGCATGGTCATCGACTGCATTTGACATAACAATATATCGTATTCCT
CCTTCTTGAAGAGCTGGAGGTTCAGTTGTTTGAACCACGACGTCAATTGAGAACAAAGAG
TGCATTGGCTATTGTTCAGAAACAGTGTACCGGCATCAACGAAATTACTTAAAACGCCAA
AGGACATCTTAGTCAATGATTCCTTGGAAAGCATGCTCACTGCGACATTCCTCAGATTGT
TAATCTTGTCATCAGTAGCCCACGATGGCCTTTGAGGTGATTCGGGTGTGTCCTTGATAA
GGTCAAGTTTGGACTCTACCATAGTCAGGTCAGAGCTCAGTTTACCATAGTCTATAGTCT
TCGATACTTTAAGAGAGTTGTCGTAGCCCTGTGCGGCGAAGAGCAATGGTGGTATCTCTT
TAAATATTTCATTGGCATTCTTCGTACAGAGCTGCTGCTTCATGGCGGAGAGTGCACCGG
TGCTGTCTGGTACGTAGTCGGATAGATTGATACTGGACTGGCAAAACGCGTCAGTTTCGT
TCACGTTTATATCACGAAGAAGACGAACTAGATGGATCCGATCAATGTTAAAGAGAACAT
CACTGGCCACATCCAAGCTCTTCTCGACGTAATCGAAGAATGCCGAAGTGTACAGACCAT
TGAATATGTTCTTAGCCTCATTCCACCAGTCACCTCCCGAGAGGAAGGACGTTATCACAT
TGTAGCTCTGGATGTTTGACTGAAGGTATTTCAAGTATACAGGTAAGCCCAAGTCGTACG
AGTATTTTACGTTGTGCTTTATAGAAGAGAGTAGTTGTTTTCTATCATTGAAGAATTTGT
AAATGTCCGTTATATTCTTCTTATCATCATCCTGAAGAATGTTAATTAGATTTTCCAAGC
TCAACCTCGCTGCTTCGTAATCGCCATCAACGACAGTTTGTATTTTATTAAAAATGATCT
TATAGTCTTGTGCACAGAATTGTATTTTTGTTCTTCTTTGATCGCCCAAAATTATTTTAC
TTTCATTTTTCAAGTTTTCACACATTGCTTCGAATGATTCGACTAAATTATAACTTTTAT
TGTTAGCCCACAGTAAATCCG
(4041 bp)

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