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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_TrvaMG_comp26306_c0_seq1
Scaffold_id
NCBI non-redundant
(nr)		PREDICTED:_phospholipase_D2_isoform_X1_[Bombyx_mori]
Ontology
GO:0000139 C Golgi membrane
GO:0003824 F catalytic activity
GO:0004630 F phospholipase D activity
GO:0005515 F protein binding
GO:0005737 C cytoplasm
GO:0005768 C endosome
GO:0005783 C endoplasmic reticulum
GO:0005789 C endoplasmic reticulum membrane
GO:0005794 C Golgi apparatus
GO:0006629 P lipid metabolic process
GO:0006654 P phosphatidic acid biosynthetic process
GO:0008654 P phospholipid biosynthetic process
GO:0009395 P phospholipid catabolic process
GO:0016020 C membrane
GO:0016042 P lipid catabolic process
GO:0016787 F hydrolase activity
GO:0030027 C lamellipodium
GO:0030334 P regulation of cell migration
GO:0030335 P positive regulation of cell migration
GO:0031902 C late endosome membrane
GO:0031982 C vesicle
GO:0031985 C Golgi cisterna
GO:0032534 P regulation of microvillus assembly
GO:0035091 F phosphatidylinositol binding
GO:0043231 C intracellular membrane-bounded organelle
GO:0043434 P response to peptide hormone
GO:0048017 P inositol lipid-mediated signaling
GO:0048471 C perinuclear region of cytoplasm
GO:0050764 P regulation of phagocytosis
GO:0070290 F N-acylphosphatidylethanolamine-specific phospholipase D activity
Transcript
Level		FPKM:3.65 TPM:3.07
ORF EntryO_TrvaMG12138_5prime_partial:A_TrvaMG_comp26306_c0_seq1
Sequence
(Nucleotide)
GAGCGTTACATGACCATTATCGAGTACCGGCTGGCCGATACTGGTAATAAATGGTTTCAA
CAAGGTCGTATTTCGGAACAAGTTGTTGATGAATAATCATGGCTACCTGGTTATGTCTAT
GCAAGTACTCAAAACCGAAACATTAGTTTATTATTCATAAGTTACTACCACTACTTTGAC
TATTACATTACTTCTTTTCTCCATCTAAATCAGTTTACCAGTTTAATTTTTAACAAAATT
TCGGAACTAAGTCCACAATGATGTAGGCATCATTCCTTCCATGGAAGTGTTTTTAGGAGT
TAACACTTCGTTGCAAAGGAAATTCAATGGCATATCAACCACGTGGCCCTGTATAAGGTC
TATTTTTCTATTCGCGAGCGCCGGGTCTTTATGCCATAACGTTTCGTGATGTTCTTCTTG
ATATTTCTTTAGTTCAGCGAATGAATGTACTGAATCTGTCGGTATGCTGTGGAATACCTC
TTCATATATCTCAGTGTTTCTCCTAGAAGTAGCCTGCCACAAGTTCTTATAGAAGTGTTC
AGAGCACGGATCTTCTATAGATATTCCGAGTCTGTCTAGATCTTCCTCCATCAAACCGAG
ATGTTCTCTAAATAGTCGTTTTCTTAACGCGCCCGCAACTTTGCCGCACGGAAACGCTTG
ATCGTTCATTGTTCCGTCTGTGAATTCTTCGTCCTGTAACAACACAGCAATCTCGGAATC
CCTGCTCCCCAACATCGACCTGTCATTAAGGTTGGCACTACCACAGATAACAGTCTTGTC
GTCAGCTATCAACAGTTTAGAGTGAACATATACTAGTTCAGTGACGGGCTCCCCCTCCAG
TGTGGAGTGTGTCCTCAGCCCGTGGAAGGTGATGTAGTGGGCGGGGTCGGGGACGCCGGC
CGAGTACAGACGGGTCAGGATCGCTTCTTTGCTTCTAGTAATACTCCTATAGTTCCAGTG
CGTGACGGCGTGCAGTGAAGTACCGGACGGCGCCCCCACCTCTCCCTCGAAGGCGGGCAA
CAACGGCATCACGACGTACACGCGGAATGTAGACTGCGTCCTGTGCGCACGCATTATACG
GTTGAATAGTGCTTCGCCTATCTGATTCCTAACAGCGATGCTAGACCTCGACAGGGTGAT
GAAGAATTGATTCTCTATGTACAAATAGTGTTGTGCCCTCGTGATAGTATCGACGTACGC
TTCATGTATACTCTGTTCCACTGTGTCCGGGTCTAGGAAACCGCAGGACCAACTCGATAC
ACTACGTAACACCTGACATGAAACGTTGTTAATATCGGCTCTCAGCAGTTTATCGAGGTC
CGGTATCGGCTGTATATTGCTGTACGTTTTCGGTACTAAATACGGATAGCTTGGATTCTG
TCTCGCCTTCTCCAGTTTGATGGCATTCCACCGCTGTATGAAGTGTCGCGCCACGTCCCG
CGCCGCCGCGCCCTGCACCGCCGCGCCCACGTCGTGCCACGGCATGCGGGGGGTCGTGTT
GCGGTCCACCAGGTCAACAAACGGCAGGTCCAAATTATTGAAATCTTTAACGATAAAATT
CGTGTAATCCTTTCCGATCCACAATTTAGAGTTCCCTTCTATTCCTTCCAAAGTGTCCTT
AGTGGTATCAGTGATCACCCTTCCTTCAACAACTTGAGCTAGAGGCGTAGGTTTTATCAA
CTTTGTGTGTTTATTTATATAGCTAGTTCTTAAAGCTTCAGTTAGTAACACTTGGTCGTT
AGATAGGGCGTATTTTTCGGCTTTTTTCCGTTCAGATTCGTCGAATTTCTGTTCATTTCT
TTCATCTTCGAAGAGAATGCTGATGACCTCTTTGCCTCTATCAGTTATTTTATCTATGAC
GTTTCGTTTTTGTATATCGGGCGTGTCCATTTTTTGTTCGTTGTTGGTGGCCATCATTAG
TTTGTCGCCGGGTTCTAGTACGGGTAGTTCGTTTTGTTGACTGTCTGCGTCTGTTTCTGT
TTGAGTTACGATCTCGTTTTTGTTCAAATCTTGTAGTTCTAGATCATTCAATCCAATAAC
GATATCTCTAGAAGTCTTGGCGAGTTCCATAGCCGCTTCAATATCGTTAGTATTGGGTAT
GTAGAGTCCGCCTCCGCCGGGCGAACTGGATGTTTTCTTCTTAGTTCTAATAGAATTCTT
CGGCTGAGCTATGTTACCGAGATCTGTTAACCTGTGTCTATGGTCGTCCCACCGGCCGTA
GCAGAGGTCGATGCCGCCGAGGAAGGCGAGGGCCTGGTCGACGACGACGATCTTCTCGTG
GTGCGCCCAGAAGAACACGCCCGCCCTGGCGTGGTCTGGGTGACGGAAAACCTTAATATT
ATCACTGGCCAATCGACTCTTGCTGTAGAAACTGTTGATACCGAGCGCCATTTCTACTTC
TTTGTAAAGCAATATAAACACTTTCACGCCTTGCGCCGCTTTCCTCTTCAGGATCATATC
AAGCCTCCAATAGTTCCCATTCAGTGCCGGTCTCTTCATATACACCTCAGGACTGAGCCA
CCAGTCCGCTATGAAGATCTCTTCTCGTGCCATCTCCATAGCGTCTGCCACGGCCGAGAA
GTACCCCTCGCCGTCCACGAGGGTGGCCACGGGGGTGGCGGGGCGCGGGGGGGAGAACGA
GTGGTGGACGTTGGGGTAGGTGAAGTCGCGAGCGCTCTGGTTAGCAACAGTTTTGAGATA
GTTCATCCACTCTTTGCTTTTCCGTTTGGTCCAACATTTGATCACCATTTGTCGACTTTG
GTTCAATATCTGAAGGCCGTGGTTCATTCCCGTTGAATACATGCCGCTTGATACTTCGAA
ACCTTGATCAAATAACATGATTCCTTTAACAATTCCATCTTTCGGTCTAATGTATCCGAA
GAATGTGTCTTTAACGAAGAACCATCGTTCCTGCCATTTTGCACAAACTAAACCGGTGCA
GAAGTAATTACACCTAACACAAACAACAGCTCCCAACAACCCGAAGCAGTTACATCCAGC
CTGCCCGGGCTGAGTGGACCCGGTTCGTTTCTGAATCATCCCTTCCTTCCCCTTACTGCC
CAGTTCCGATATGAACGATAGGTTTGACACTTCTAGGAACTTTACCGTCTCATGATGGTT
TCTGTATATCGATATATTTAATAAATTATATAAATATTCTTCTAATTGTTTCATTCGTAA
TTGTATGCCTTCGTAGGTGATCATCACTTCTGGTTTTTTTGGAAACCTGGGTAGAGCACC
ACGCCTCTTCCTTGGTTTAGTAATTCTTTTCGAGTTACTCCTAGGAACAGCCTCTAAAGC
CACTCTTTCTGCTTTCTCCTCCGTATCGACAGTATTCTTAAAGCTAGCTCTCCTCGACTT
ATGGGCTTTGGTGGGGAAAGGAATATTGAGAGAGGCGCGGTATAATGCGAGCTGCTGATG
TAGGTGTAATATGTGTTTGTAACGTTTCTTGATTGTCCATGTAAAGTCGCCATGTTGGAG
GGATATTGTGTAGAGATTTGGATTCAGCAGATGTGTCGTGACGCTCCTTTCGTTTTCCAC
CAATCTGACCTTTATTTCCACGCCCGGAATGAACACTTTCCTGTGCACCGAGTTGAATTT
AACAGGCGGTTCATGGATGTGTTTGAATGGCACTGAATTTTCTGGTGTTGCATCACTGTC
CTTATTATCAACCTTATCGATATCTATGACGGAGAGTGACTCAGGTACCGCGAGGCTCTC
GTCGAATTCCGAATCGAGACCCGGACTTAAGGAGTCCATGTGCTGGAATATCCCCGGTAG
GCAATCGCCCGGAGTCGTGGGCGTGGATGCGTCCATCCCGTAGTTTGTGTAGCTGTATAG
TTGCTCATCTCGTTTGATTAAATTGTGAAAACTGAGTGTTAGTTCGTTTCGTTCCATACG
TGTTTTGTATTCTATATCTTCGTTCACTTCAATACT
(3936 bp)

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