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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_TrvaMG_comp27206_c1_seq2
Scaffold_id
NCBI non-redundant
(nr)		PREDICTED:_tyrosine-protein_kinase_Fps85D_isoform_X2_[Amyelois_transitella]
Ontology
GO:0000166 F nucleotide binding
GO:0004672 F protein kinase activity
GO:0004713 F protein tyrosine kinase activity
GO:0004715 F non-membrane spanning protein tyrosine kinase activity
GO:0005102 F signaling receptor binding
GO:0005524 F ATP binding
GO:0005543 F phospholipid binding
GO:0005737 C cytoplasm
GO:0005886 C plasma membrane
GO:0005912 C adherens junction
GO:0006468 P protein phosphorylation
GO:0007169 P transmembrane receptor protein tyrosine kinase signaling pathway
GO:0007275 P multicellular organism development
GO:0007391 P dorsal closure
GO:0007394 P dorsal closure, elongation of leading edge cells
GO:0007411 P axon guidance
GO:0008594 P photoreceptor cell morphogenesis
GO:0016020 C membrane
GO:0016301 F kinase activity
GO:0016310 P phosphorylation
GO:0016740 F transferase activity
GO:0019898 C extrinsic component of membrane
GO:0031234 C extrinsic component of cytoplasmic side of plasma membrane
GO:0038083 P peptidyl-tyrosine autophosphorylation
GO:0042127 P regulation of cell population proliferation
GO:0045087 P innate immune response
GO:0046664 P dorsal closure, amnioserosa morphology change
GO:0051017 P actin filament bundle assembly
Transcript
Level		FPKM:8.11 TPM:6.83
ORF EntryO_TrvaMG17257_complete:A_TrvaMG_comp27206_c1_seq2
Sequence
(Nucleotide)
GGGCGGTCGTGCGTTCCGTACTCTGATATTGTTCGAACTTTCCGCGTGCTCTTCTTCTTC
GTTAAACGTTACTATTGAAAGTGACCTTTTATTAGATTTTATTAGGCACTTGTTGAAATT
TTACGTGTTTATCCCCAAATAATTTTCTTTGAGGTCCAAGGCAAGGTGTTGGTGTGAAAA
CAAAAAAAAATATGTGATTTGTGTTGTGTTTATGTTTGCGATGTGTGGTTTAGTGTAGAC
GTGGGTGGTTCACGATGGGATATACTGCGAATGGTGCGGGGAGGGCGGCACACGAGGCGC
TTTTAGCTCGGCAGGATGCTGAGCTTAGGCTTATGGAAGCCATGAAAAGAAGCCTCCAGG
CTAAAATGAAAAGCGATAGAGAATATGCGCTTGCGCTGTCTGCCGCGGCCGCTCAGGGCC
AGAAGATGGACAAATGTGAAGAATTAAACGGATCAGTGATAGCGGCAGCATGGCGTACAA
TGACTGAAGAATGGGAGAACACAAGTCGTCTCATCAAATCGAATGCAGAAGCCTTAGAGT
CGAAGGCACTTGATCGCCTCACGACGCTTATGGCAGAAAGACGAAAGGCACGTAAAGTGT
ACCAAGAAGACCACACCAAAATATCATCTCAGTTTACTCAGTTATCGGAAGAGGTTCAGA
GGAAGCAGAGCGAGTACCAAAAATGTCTAGAGTCATACAAACAGATGCGAGCGAAGTTCG
AAGAGAATTATTTAAAGTGTCCAACCAGCAGAGGAGGTCGGAAATTAGACGAGACGAGGG
ACAAATATGGAAAAGCATGCAGGAGGCTTCATCGAGCACACAATGAATACGTGCTGCTGC
TGGCCGAGGCGACGGAATGCGAGCGAGCGCTGCGGACGGCGGCCATCCCTGCGCTGTTGG
ACCAGCAGCGGCGGCAGGGGGAAGCCACTGCCACTTCTTGGAAAGGCATTCTATTAGAAG
TAGTGCAGAGGTCAGATTACAGCACGGACAAGTTCCGAGAGATTCAGACCAAAGTTGAGA
GCACGGTGCAGAACCTGAGGCCGCAGGACGAGTACAAAGAATTTATAGAAAAGTACAAAT
CTCCACCTTCAACACCAGTTACATTTACCTTTGACGAGAGCCTAGTCGAAGACACGAGTG
GTAAACTACAACCGAACCAGTTGACAGTCGACAATCTCACTGTTGAGTGGCTGAAGGAAA
AGTTGACGGAACTAGAGGCGACGTTACAAGACAATAGGGAGAAACAAACAGCTCTTCAGG
GACCAGAGATCATAGGGAACGGTGTCTGCAAAAATAATAATACGGGTCTTAGGAACGGCG
TGAATGGTATTGATAGGCATTCACCGCCTCCCATACCCGTAACAACTTCAGAACCTATAA
AGTTGTTAGAGCTGCGTGTAGCGGAACGTAAGTGTGCCAAACAAGCCGAGATGATCCGCT
CCGCCCTGGCTGAGCTCGGCTGCGAGGAGGCCCCGAGCGGCTGTCCTGATCTCTCGGCTG
AGACTGTCGGCGTAGACAGCTTGGATGGAAGCTCTCCTGATCATCAGGTGAGTGTGAGTG
AGACAGAGCGATCTCTAGTGGAACAGGAGTGGTTCCACGGCGTGCTTCCTCGCGAGGAGG
TGGTTCGATTACTGCGCAGTGATGGCGACTACCTGGTGCGGGAGACCACGCGCAACCACG
CGAGGCAACTCGTGCTGTCTGTGTGCTGGGGACAGCACAAACACTTCATTGTGCAGACTA
CTCCTGAGGGTCACTACCGTTTTGAAGGCGCATCATTTCCGTCAGTAGCTGAGCTGATAG
CGTGGCAGCGAGCGAGCGGCGTCCCGGTGACGGCCCGCTCCGGCGCCCTGCTGCGACGCG
CCGTGCCCCGGGAGAACTGGGAACTTAACAACGATGATGTGCAGTTGCTTGATAAGATTG
GACGGGGTAACTTCGGCGATGTTTACAAAGCGAAACTAAAGACAACAGGACAAGAGGTCG
CCGTCAAAACGTGTCGAGTGGCGCTCCCGGAGGAACAGAAACGAACGTTCCTGCAGGAAG
GAAGGATTCTGAAGCAGTACCAACATCCCAATATAGTGCGGCTCATCGGCATCGCGGTGC
AGAAACAACCCATCATGATCGTCATGGAACTTGTGTCAGGTGGATCCCTCCTGACCTACC
TCCGTACGAGAGCATCCGGTCTGAGTTCCCGCACGTTGCTGGCGATGTGTCGCGACGCGG
CCGGCGGCATGCGCTACCTCGAGTCCAAGAACTGCATCCACAGAGACCTGGCTGCGAGGA
ACTGTTTAGTGGGAGACGACAATATCGTGAAGATATCAGATTTTGGAATGTCGAGGGAGG
AGGAGGAGTATATAGTATCGGGAGGAATGAAACAGATTCCTATTAAGTGGACGGCGCCTG
AAGCTTTGAATTTTGGTAAATACACATCGCTATGTGACGTGTGGAGTTACGGAGTGTTGA
TGTGGGAAATATTTGCGAAGGGAGACACGCCCTACGCAGGAATGAGCAACTCCCGGGCTA
GAGAAAAAATTGATACCGGATACCGCATGCCCGCCCCAGAAGGCTGTCCAGAAGATGTTT
ATGCGTTAATGTTGCGTTGCTGGGAGTACGAGCCCGACAAGCGACCGCACTTCCATCAGA
TATACACGCTCATAGACACTATCTACAATAGATGATCATAGACAACATAGATAGACATCA
GGAGCAAAATGGCGGGCCGATGGAGACGCTTGTTACTGTGAACTGTTTTTGTTAAGAGTA
CCTATCTGAATAAGATAGTCGCTATCATATTTTATAGCAAATCTGAAACTGATTGGTGAC
AACTGCAATAGTAGTACAAGAAAATTAACTCAATTTTTACACTACAGTTTTGTGGTCAAG
ATAAATTGTTTAATAATTATATGCAACACATTTATCAATGCTCTCAGCATTGATAAATGT
GTGCTGTAAAAAGAAATAAAATTATTGCATTTCCTTCATAGTACCTATTTAAAAAAATCA
TGGACCATGTTGATCTCCCTGATTAGCAATTTTTTATCACTTTATCAATTCTATATTGAT
AGTTAAATTATACATTTGAAATATTAGTTTGGTGAAAAATATAAAAAATCAACTTCATTG
GCTTTGCACAACAACATACTTTGACATAA
(3149 bp)

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