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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_BomoFB_comp2865_c0_seq1
Scaffold_idBomo_Chr4
NCBI non-redundant
(nr)		PREDICTED:_tyrosine-protein_phosphatase_non-receptor_type_23_[Bombyx_mori]
Ontology
GO:0004721 F phosphoprotein phosphatase activity
GO:0004725 F protein tyrosine phosphatase activity
GO:0005515 F protein binding
GO:0005634 C nucleus
GO:0005654 C nucleoplasm
GO:0005737 C cytoplasm
GO:0005768 C endosome
GO:0005769 C early endosome
GO:0005856 C cytoskeleton
GO:0005929 C cilium
GO:0006470 P protein dephosphorylation
GO:0006810 P transport
GO:0010633 P negative regulation of epithelial cell migration
GO:0015031 P protein transport
GO:0016023 C cytoplasmic vesicle
GO:0016311 P dephosphorylation
GO:0016787 F hydrolase activity
GO:0016791 F phosphatase activity
GO:0019901 F protein kinase binding
GO:0030030 P cell projection organization
GO:0030334 P regulation of cell migration
GO:0031410 C cytoplasmic vesicle
GO:0035335 P peptidyl-tyrosine dephosphorylation
GO:0036064 C ciliary basal body
GO:0042995 C cell projection
GO:0043162 P ubiquitin-dependent protein catabolic process via the multivesicular body sorting pathway
GO:0060271 P cilium assembly
GO:0070062 C extracellular exosome
GO:1903387 P positive regulation of homophilic cell adhesion
GO:1903393 P positive regulation of adherens junction organization
GO:2000643 P positive regulation of early endosome to late endosome transport
Transcript
Level		FPKM:4.09 TPM:4.48
ORF EntryO_BomoFB1073_complete:A_BomoFB_comp2865_c0_seq1
Sequence
(Nucleotide)
GTCACGTACAAAGCTACCAATAGCATAGCAAACAATTTAGTAAAATCTATATAGAAACAG
TCTTATTTCTTCTTCAAGCTCCACAGCGGATCCAAAAAGTTGAGGGGGTCTTTCATGTCT
CCGCTCTTGAGGCCGGGAGCTTGCTTCATCTCCTCGAACGATTCCCGAGAGAATTTCTTC
TGCGGCGTGGCGGAGTTGGAGTTGTTAGGGGTGGGAGTGACCGGAGGGAGGATGGAGGCT
CCTGTTGGTCCGGAAACTGCTTCACCGTTGAAATTCGTTGTCCCAGAACAAAGTACGCCT
TGTACGTAAAACAGCGCGGTTCTGTACGCGTCGGCTAGATACTTCGTGTCTTCCAGAATG
TTCGCGCGACCTTTGTACAAGTTGACACAGCCGGCGTCTAGCATATCGCACAAATCTAGT
TGTCCCGCTCGCACCTGGCACATGACCATAACGAGAACGGCGACGACGGCGCTGCGTCCC
GCTCCCGCGCCGCACTGTATCCACGCGCCGCACAGTTGATTGCACAGACGATTTTCATAG
GTTTGACTCAGAATTTTATCTACCAGAAGCACTAGGGGTGAGCAAACAATTTTGGCAGGG
AACACGTTGATCTGGTAGTGCGTGACGGCGTGCACGCTGCTGCCGCCGGCGACGCGCAGC
CTCCGCTCGGTCCAGTGCACGGTGCAGTTCACTTCTTCCAGCAGCACCTTCAGACCGTAC
AGCTCCAGAGACTGTCCCTTGGCCGTCGGCCAGTACGACTTTCCTTGCAGCTCAATCTCA
CTCAGTAAACACACGATGCAACTGATTTTATTATCTAATACTGACTTCCAGAAGATTCCA
TATTCATCTTCACTTGGATTTTTAGAGATCACTAAGGGTATACACCATGAGGCTAATTGC
TTGTAATGAGAGGCGTTTATGTAAGCGTCAGGGTCGGACTTGAGCGTCAGGCGCGAGTCG
TCGAAGGGCACCACCTCCGTCACAATGTTCCCGCGGCTGTGTTTCATCGCTATCGTTTTA
GACCTAGTCATGTTTTCCTTCAGTTGTACATCTTGATACATTTTCCATTTCGAATCCAAT
AGCGTCAGTCCACTGGGAGTTCTGTTGGTCAGCGAATCCACCAGTCTCTGCAAGTTCTTC
ACTTCCTGCGTGAACTGGTTGAGTAGACTGGGGTCCGAGAAGATATCTCTCTTGGCCGGT
CGGACAAGCGCCTCTTCTTTGGGAGCCTTCGCTGGCTCTGGTTTAGGTAGCACTTGCTTC
CGTATGGCACTTTCGGATATTTGTGGCACTTTTATCTCGGGCATCAACGGTTTTTGTTCA
ACCGTAAAATCTATGTCCGATAGAAGATCGAATACGGAAATTTCCGGCTTTGGCTCGATT
TCCTCGATCGGATTCTCCGCAACTTGTTCTGTAGTCTGTACCGGTGTTGGAACAGTTTCT
TGGACCGAGACGTCGTTACTCTGCGGAGCCTGCAGCGCCTCCATTGTATCACGCGATTCA
GTCGACACTCCATTTTGTTCAGTCGACTGAACATCATTCTCTTTTTGCGAAAAAACTTGA
TTACTGGTAAATGTAACGCTGGTATCGTGACCTTGACCGGACTGCATGTAAGTCGACTGA
TTGACGTTGGCGCCATAGTTGGTCCCGATCGTTTGCGGAGTGGCGACCATTTCATTCGAC
TGGTTAGTGGTCGTTATGTACCCGTACGGCGCGTTGTAATACTGATTGCTGTTCTGTTCT
TGGGTCGGTGCTTGGGGGACTTGCGTTTCAGAGGGGGACTGCACGGTGTGGCATCCGCCG
GCGCTGGTGTAGCGCTGTCCGGCCCAATTCGAGTCGTTGTGCACGGTCTGAGGGTCCACA
TTCCCTTGGTGGTTTGCGTACGAGTTTTGCGAACCGTAATTGTATTCGTAATTACCGGTA
GCCTGGTTGAGTGTATAGCCCGGATGATTTTGGTAGGTCTGGCCGTAATTAACTTTGCTT
TGGTCCTCGTAGGTGCTCGTCGGCTGGTAGCTTTGCACGTTTGGATTTTGGTAATTCTGA
ATATTGCTGTAATTCTGTGTGTTATAGTTCGACTGGAAACTAGACGAGAGAGCTTCGCCC
GTCACGTGCGATTTGATCGGTTTATCGAACGCGTCCATCTGCGCTAAAGCGGGGTTGTAT
ACCTCAGCCTCGGGTGGGTACGTGTAAGGCAGTGACGTCACTGTGCTAGTGACGTTTGTC
GTCGACGTGTTCGCACCGGTCGCGATCGTTTGCGTCGCGTAGTGTTGGGACGCGCTGTCG
AGCGAGCTCGTGACGTAACTGTACGGTTGTTCCGGCACACTGTAGGGTGCGCTGACGCTG
TACTGGACCGACTCGGTACTGTATTGGTAACTAAGGGAGCTGTAGTCCGTCGGGAGCTGT
GACCCAGGAGCGGGCACGCCCGTGTTCAAACCGGCGTTATACGCAACACTGGGCGTGGAC
GATTGCGGGTACTGCATGTAGTAACCGTGCGAGGGATCTACAGACGGTTCAGACTTTGGA
GCGTTTATATGCATTTGTGCAAAATTCACATTCAAATCTGTCTGGTTATTCGCATACGCC
TGATTAGCAGAAGCGTAAGTATTGGAGCCGTGACTCGAGGCCACAGACTGAACATTCTGC
GCGTAAGGGTCATTGTAGACTGGATATTGAATATTTGGATTCGTGTTCATGTTGGGTGGT
TGGTTGCTATATTGCACGGATTGCGGCTCCGACACGGACGCGGCGCTGTTCTGGGGCGTG
CTGTAATAAGGGCCGGTATACACTTGCTGCGGGTCTGGTATCTGAGGCGGATATTGTTGC
GTGTGCGGATTGTACGCGGAGTTATCCTTGTCGTAGGGTTTCTCGGCGGCCGGGTAGGCA
TAGTTCTGGGCATAAGAGGTTTCGGGCATGACGTTAGGGTTGTAACGGTCGGTGAATGAA
GTGTTCTGAGCTTGAGACATCAGAACTCCGTCGGGGAGCTGCATCTGTGCCACGTCTGTA
GCCTCAGAGCCAACAGGCGCCGGTCTTACGGAGGGGAGGTACATCGTTTCCGGATAGTAC
GTGTCTGGCGGGAAGGCTTCCATTTGAACTGGAGGGGCTGTGTTTCTAGGATTGCTCCTG
TTCTTCATATAAGGCAGGTAGTCCTTCAGCTTCCGGGGCGCTCCGGTGGGCGGCAGGCCG
G
(3181 bp)

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