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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_BomoSK_comp12312_c0_seq1
Scaffold_idBomo_Chr11
NCBI non-redundant
(nr)		PREDICTED:_xylosyltransferase_oxt_[Amyelois_transitella]
Ontology
GO:0000139 C Golgi membrane
GO:0005783 C endoplasmic reticulum
GO:0005789 C endoplasmic reticulum membrane
GO:0005794 C Golgi apparatus
GO:0006024 P glycosaminoglycan biosynthetic process
GO:0008375 F acetylglucosaminyltransferase activity
GO:0015012 P heparan sulfate proteoglycan biosynthetic process
GO:0016020 C membrane
GO:0016021 C integral component of membrane
GO:0016740 F transferase activity
GO:0016757 F glycosyltransferase activity
GO:0030158 F protein xylosyltransferase activity
GO:0030201 P heparan sulfate proteoglycan metabolic process
GO:0030204 P chondroitin sulfate metabolic process
GO:0030206 P chondroitin sulfate biosynthetic process
GO:0042732 P D-xylose metabolic process
GO:0050650 P chondroitin sulfate proteoglycan biosynthetic process
Transcript
Level		FPKM:7.61 TPM:7.65
ORF EntryO_BomoSK10678_complete:A_BomoSK_comp12312_c0_seq1
Sequence
(Nucleotide)
CAGGTCATAAAATCCTTTAAAAAAAAAACTTTAACACAATATTCACAATAATGGTTTAGC
AAACGAGTTCCCGCAAAGTGGACACTGAATAGTTTTAAACGATATGTCACAAATACGAGT
TTAATAAAAAATTTTTTATCATAGACTTTTAACTGATGGCGGTAATATTTAGAAGAATTT
GTTTAAAATATGTGAAGTGCCTTGGAATAACCATTGTAATTATATTTTTTGCTCAAATTT
TTGTGGCACTTCAATTTTTTCCTTCATTAAGTGATAATTCATTGAAAAATGGCTATGCCT
CATTTTCAAAGTCAGAAGCTGAAGTTTCTGCAAGAAAAAACATGTTAAGGTTCAGTGACG
ACGAAGATCTCCCAACAAACTTAAAAAAAAATAAACCTGGTTCTATTTTAAGAGTTGAGG
AGCTGGATTTTATACCTGCATGTGAAATTAAAAGTAGAGAAGCTATATCTGCCATACACA
GAGCCAAAACACAGCTGTGTAAACAACAGATACTCAACAAAACTTGCCTTATACAAGAAA
GTAATTTTTATCCAGAAAAACTAACAAACGTTTGCCCACACAATGAAAAGTCTTATGGTA
CATATCTTGGATGTTTCGTTGATGAAAAGAAGATGAGATTGCTTTCCGGATTTTATGGAA
ATTATGTGAGCACAAATTCACCAAATTCATGTTTAGATATATGTGTTCAAGCTGGGTTTC
CATATGCTGGTGTTCAATATGGATCTGAATGCTTTTGTGGAGATACAGACCCTCCTGATA
ATGCTAAACTCTCTGATGATGCCTGTGATATGAAGTGTCCCGCAAATCCCTCAGAAACCT
GTGGTGGATATTTTACTATGAACATTTTCGAAACTGGATTAACAAAGTTCCAGCCTCAAA
TACCGGACACGTCGAATGACAAAGAGGAATCCGTGAGAATAATTTTTCTATTAACATTAA
ACGGCCGCGCTGTAAGACAAGTTAATAGACTAATAAATGCACTGTACAAAAGGAATCATT
ATTTTTACATACATGTCGATAAGCGTCAAGACTACCTCCATAGAAAATTATCTGTTTTAG
AAACTCATTTTCCGAATATTAAAATGTCCAAAAAAAGATTTTCAACAATATGGGGCGGCG
CATCATTACTTACCATGCTCCTGACATCTATGAAAGATATTCTTGCACTAAATTGGAATT
GGGACTTTGTTATAAACTTAAGTGAAAGTGATTTTCCAATAAAGTCCTTAGAAAATTTAG
AGAAGTTCCTATCAGTAAATAAAGGTTTCAATTTTGTTAAATCCCATGGTCGGGAGGTAC
AAAGATTTATAAAAAAACAAGGATTAGATAAAACATTTATTGAATGTGATACGCACATGT
GGCGTGTTGGTGAAAGAAAACTTCCCCGTGGAATAGTAATAGACGGCGGCAGTGATTGGA
TAGCACTCTCTCCTAATTTCGTTTCCTATGTTGCAAATGAAAAAGATGAACTTTTGTCTG
GCTTAGAAATAATTTTTCAACATACGCTTTTACCTGCAGAGTCATTTTTTCACACTGTAC
TTCGCAATTCACGTTTTTGTAATACGTACGTGGATAACAATCTACATGTAACCAATTGGA
AAAGAAAATTAGGCTGCAAATGTCAGTACAAGCATGTAGTAGATTGGTGTGGATGTTCAC
CTAATGATTTTAAAACTGAAGACTGGCCTAGGATTCAAAACACACAGGATCGTCAACTCT
TTTTTGCAAGAAAATTTGAGCCAATTATTAATCAAGAAATTATAAACAGAGTTGAACAGT
ATATAGGTTTTAAGGATCACTTAAAAATTCAAAATTTGGAAAGCTATTGGCAAAGTATAT
ATAATGTGGATGATTTGACGGCAAGCAGTGATGATACACTTTTATCACACGCCGAAAGCA
TTATTCGTCATAATGCTAAAATTCTTGCTGAAGAAGGTTGTATAATTGAACCAGATATAG
TGATTGAAATCACATCATATAATTATGCAGATGTATATAAAGGAAATTTAATACTTCATA
AAATTTATCATAATAACGTAGAGTTGTCAATGGAAACATGGTACAAACCAAAGAAGAACT
TGCAACTAAATTTTGAAAATCGTTACGTTGACAATATAAAACAATTCAAAGTTAGTTCTG
ATTATGATCAAAAAGAAATGATTTTCAGAAACCTTGCTGGTATTTTGGGTCCACTGTCTG
AACCAACGTTGTCTTATAAATTTTCTACAAATACACTGTTAGAAAAAAGGACTGAAAACT
TAACAATAGTTTGGCTTGACCCTGCCGGGATCATAGCAGATCTAACAGATATTCATGTGG
ATGAGAATAATTTAACAAACTTCATTAAACCCAATTTTAGAACTCCTCTATTACCTGGAG
TGTGGAAGGTTGGTATGTTTGAGCAAAGCTATCTATTAGCTAGCACGAAATTTCTCGTCA
CTCCATTGCAATACTTCGGCGGTAAAGAAATTTCGAATCAAGAAGTATCCATACTTCACG
GTGGCTCACAAAATTCTTACCACAATTTTTCGCACATTAAATTAGAAAATTTTGTACCAG
ATCAGGAATCTGCTATATTGTCACAAAAAATATCACAAGCAAATGTTAGAAGAACAAAAC
AAGACTTAAAAGATTGGATAGATGCATTAAGTTACGAATTTTATAATGTATTAGGATCAT
GTGTAAAGTCTAGTACGAATTTTAAAGAAAAAATAAAATGTGGAATTCACATACTTGAAT
ACTGTGAATCAACCCATTGGAGCTCCTTAACACCAGACCCGAAAGGATCGATAGGAAAAC
TTAATAAACTTTCAGGACGATTAGATAGGATATGACATTAGTAGATTATTAAAAAAAAAA
TTCGACATTAATTTTGCTATAAGTATTATGAATTGGAATAATAAATATAATAGCCCTTGA
CCTAGTATTCCAATTTCAAATTCTTTCTAAATTCCAATTCGTGACCAAATGTCCTGCAAT
TTGATACATCAATCACGGAACAGAAAATAGAGCAGGAAAAGAAAAATATAGTTTGTTCCC
CATGTTTAACATTAAACATTATTTTTCTTGAGGATCGAATAAAATAACACATTCTGTATA
CAAAAAGTATAAATAAACAAACCGTAATATAGATGGCGCCACGCTCCCATATTTTAGTTT
TATTCATTAAAATTTTTCGACTAAATTACTTTAGTTATTCCGTAATTAAGATCTTCACAG
TTACTTCGTGAACGATACTGACATCATATGAGTTATGAATAATAACGAACCCAGTTCATA
TTCAATCATGCGAGAATTCATCAGTAACCACCCAACGGCAAAAGCAAGTCATAGTTGATG
CATATGGGTGCTTCATTTTGTGAGTGTAAAAGACACTCGCGATGAAAACGGCAAGAACGT
TTACTGCTACAAGATTACTATTTTTAACGGTGTAATAGACGAAGGTACAAAGATATAAAA
CAGTATTGTTTAATATAAATGAATATAGAAGATGTATGACTAGAATCAGTGAGGAGCATT
GTGAGCATCCCTTTATCTAATTCACGCGCTCGCACCACGAGATTTAATAAAATGTTTATA
GCAGAGGTAAGTTCTCGTCGAACCCGTCGCTTGTCACGATGGGCTCGACGAGTAAATTAA
CCCT
(3664 bp)

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