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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_TrvaMG_comp26409_c0_seq4
Scaffold_id
NCBI non-redundant
(nr)		PREDICTED:_probable_phospholipid-transporting_ATPase_IA_isoform_X2_[Bombyx_mori]
Ontology
GO:0000139 C Golgi membrane
GO:0000166 F nucleotide binding
GO:0000287 F magnesium ion binding
GO:0004012 F ATPase-coupled intramembrane lipid transporter activity
GO:0005515 F protein binding
GO:0005524 F ATP binding
GO:0005783 C endoplasmic reticulum
GO:0005794 C Golgi apparatus
GO:0005802 C trans-Golgi network
GO:0005886 C plasma membrane
GO:0006810 P transport
GO:0006869 P lipid transport
GO:0007612 P learning
GO:0008152 P metabolic process
GO:0015914 P phospholipid transport
GO:0016020 C membrane
GO:0016021 C integral component of membrane
GO:0016787 F hydrolase activity
GO:0019829 F ATPase-coupled cation transmembrane transporter activity
GO:0030335 P positive regulation of cell migration
GO:0031410 C cytoplasmic vesicle
GO:0034220 P ion transmembrane transport
GO:0042584 C chromaffin granule membrane
GO:0043231 C intracellular membrane-bounded organelle
GO:0045332 P phospholipid translocation
GO:0046872 F metal ion binding
GO:0048194 P Golgi vesicle budding
GO:0061092 P positive regulation of phospholipid translocation
GO:0070062 C extracellular exosome
GO:0098655 P cation transmembrane transport
Transcript
Level		FPKM:0.43 TPM:0.36
ORF EntryO_TrvaMG12560_complete:A_TrvaMG_comp26409_c0_seq4
Sequence
(Nucleotide)
GTGCGGTTCAACTCCCACATACAGGAAATCTCAGGAAACATATCAAAAAGTGTTCAAACA
TACGTAGAAGTCTGAAACACATATCGTAGTGAGTGTTAGTGTAAGTGATCAGTGATCAGT
GATGGTATGGCGTGGCCTGGGGGATCCCCTGACACTGTGGAGCTGCCTCTTCACCAGATA
CCTGACACACCGGTGCCGGAGACTGCAATCAGGGATACTAATACTACTGCTCCTGTTACG
AATGAAGATGAAGCCACAACGTCGGGTATCACGGACGGAGCCGCCGCAGACCAACAAAAT
CGTATCATATTCGTCAACAGACCACAGCCACAGAAGTTCGTGTCCAATAGGATATCGACA
GCCAAGTATAGCGTACCCTCGTTCATTCCTCTGTTCCTGTTCGAGCAGTTCCGTCGGTAC
TCCAACTGCTTCTTCCTGCTCATAGCGCTGCTGCAGCAGATACCTGACGTTTCTCCCACG
GGACGGTGGACCACCCTCACTCCACTCATACTCATTCTCAGCGTGAGCGCTATTAAGGAA
ATCGTCGAGGATTTTAAACGTCACAGAGCAGACGACGAGACGAACAGAAGGAAAGTGGAG
GTGTTACGCGAAGGACGATGGATCTCGATACGATGGGAACATCTGCAGATCGGTGACGTG
TGCAAGGTGGTCAACAACCAGTTCTTTCCGGCTGACCTGGTGCTGTTAGCTTCAAGCGAG
CCCCAAGGCATATCGTTCATAGAGACCAGCAACCTGGACGGGGAGACCAACCTGAAGATA
CGTCAGGCCCACCCCGACACCGCCCGCCTCGACAACACGCCCTCCCTCGCGGAGTTCCGC
GCCACGGTGCAGTGCGAGCCGCCCAACAGGCACTTGTATGAGTTCAACGGGCTGCTCAAG
GAGGCTAATGCTAAGACGATGCCGCTGGGCCTGGATCAGATGTTGCTCCGCGGCGCCATG
CTGCGCAACACGAGCTGGGTGCACGGCGTCGTGGTCTACACCGGACACGAGACCAAGCTC
ATGAAGAACTCCACTAAAGCCCCATTGAAGCGTTCGTCTATCGACCGTCAAACGAACACT
CATATCTTGATGCTGTTCATCATTCTCCTAGCCCTGTCCCTCCTCAGCGCGGGCTTCAAC
GAGCTCTGGATGAGGAACCACAAGGACTGGTACATAGGGCTTGAAGAAGCGCAGAATGCA
CATTTTGGATTTAACTTTTTAACATTTTTGATATTATACAACAATCTAATACCGATATCG
CTGCAAGTTACTGCAGAAATAGTTAGGTTTTTTCAAGCAAAGTTCATAGCAATGGACAGC
GAGATGTACGACCCGGTGAGCGACACGGCCGCGCTGGCTCGCACCTCCAACTTGAACGAA
GAGCTCGGCATGGTGCGCTACATCTTCAGCGACAAGACCGGCACCCTCACGCAGAACGTC
ATGGTCTTCCACAAGTGTTCCATAGCCGAGATAATCTACAACCGTCCAGGCGCCAACGAG
AAGTTGGAAGACACGATTCTATATCAGAACCTGTCCCGGGAGCACCCCACGGCGCCCGTC
ATCCGGGAGTTCCTCACCATGCTGGCCATCTGCCACACCGTCATACCCGAGCTCAAGGAG
GACTCCATCAACTACCATGCTGCGTCACCAGACGAGCGCGCGCTAGTGATGGGCGCGGCG
TCGTTCGGCTACTCGTTCTGCACGCGCACGCCGGACAGCGTGGCGGTGCGGGCGCACGGC
GCGCTGCTGCACTACAAGGTGCTCAACGTCATCGACTTCACCAGCGCACGGAAACGGATG
TCCGTCATCGTCAGGACGCCCGAAGGGGGTATCAAGTTGTACTGCAAGGGCGCCGACAGC
GTCATATACAGCCGGCTGTCGGGCGGGGAGGGCGCGCGCTTCGCCAGCACCACGCTCACA
CACCTCGAGCACTTCGCGGCCGAGGGGCTCCGCACGCTCGTGTTCGCCGTCGCCGACATA
CCCGAGCAGACCTACAAGGACTGGTCAAACACGTATCACAAGGCGAGCATCGCAATACAG
GACCGAGAACAGAAAATAGAGGAAGCAGCTAATCTCATAGAAAATAACTTGAAGCTGCTC
GGAGCCACCGCCATTGAAGATAAATTACAGGACGGCGTGCCGGAGACGATAGCGGCGCTG
CTGAAGGCGAACATCAACGTGTGGGTGCTCACCGGCGACAAGCAGGAGACCGCCATCAAC
ATCGCCCACTCCGCACGGCTCATACACACCGCCATGCCGCTCATCATACTCAACGAGGAC
AGCCTCGACGGCGCCAGAGAGTGCATCTCGCGTCACGCCATCGAGCTCGGTGACAACCTC
CGCAAACAGAACGACGTGGCGCTCATCATCGACGGCAAGACGCTCAAATACGCCATGGGA
TGTGACCTCAAGCACGACTTCCTGGACCTCTGCATATCGTGCAAGGTCGTCGTGTGTTGT
CGCGTGTCGCCCATACAGAAGGCGGAGGTAGTGGAGCTAGTATCCGGTGCGACGGGAGCG
GTCACCCTCGCCATCGGAGACGGCGCCAACGACGTCGCCATGATACAGCGCGCGTCCGTC
GGCGTCGGCATCTCCGGCGTCGAGGGACTGCAGGCCGTCTGCGCGTCCGACTACAGCATC
GCGCAGTTCCGTTTCCTGCTCCGTCTGCTGCTGGTGCACGGCGCGTGGAACTACTCCCGC
ATCAGCAAGCTCATCCTCTACTCCTTCTACAAGAACATCTGTCTGTACGTCATCGAGCTG
TGGTTCGCTATATACTCCGCCTGGTCCGGACAAATTTTATTCGAGCGCTGGACGATAGGT
TTCTACAACGTGATATTCACGGCGCTCCCTCCCTTCGCTATAGGACTCTTCGATAAGCTC
TGCTCGCCGGAAATTATGCTCAGGCACCCGATCCTGTACATCCCGTCCCAGCAAGGGCTG
CTGTTCAACGTGCGCGTGTTCTGGGTGTGGGCGGTGAACGCGCTGCTCCACTCGGTGCTG
CTGTTCTGGCTGCCCGTCGCCATCACCGACCACCACGTGCTGTGGCCCGACGCCAAGGAC
GGCGGGTACCTGGTGCTCGGCAACCTGGTGTACACGTATGTAGTACTGACAGTGTGCCTG
AAGTCCGGCCTGGCCACTCACTCGTGGACGTGGGTGACGCACGTGTCCATATGGGGCTCC
GTGGCGCTGTGGCTGCTCTTCCTACTCATATACAGTAACATCTACCCCACGATCCTGATC
GGCGCGGTGATGCTGGGCATGGACCGCATGGTGTTCGGCTCGCTCGTGTTCTGGTGCGGG
CTCGTGCTGGTGCCCGTCGCCACGCTCATACCCGACCTCGTCGTCACCGTCATCCACAAC
TCCGCGTTCAAATCGATGACGGAGGCGGTGCGGGAGAGCGAGATAAAACAACGAGACCCA
GCCGTCCTGCTCGCACAGCCCCGGCACTCGTGAGTACTCCGCTATTATACACACATACGT
TAACACT
(3487 bp)

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