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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_BomoFB_comp10289_c0_seq2
Scaffold_idBomo_Chr10
NCBI non-redundant
(nr)		PREDICTED:_CAD_protein_isoform_X1_[Amyelois_transitella]
Ontology
GO:0000050 P urea cycle
GO:0000166 F nucleotide binding
GO:0003824 F catalytic activity
GO:0004070 F aspartate carbamoyltransferase activity
GO:0004087 F carbamoyl-phosphate synthase (ammonia) activity
GO:0004088 F carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity
GO:0004151 F dihydroorotase activity
GO:0005524 F ATP binding
GO:0005737 C cytoplasm
GO:0006207 P 'de novo' pyrimidine nucleobase biosynthetic process
GO:0006221 P pyrimidine nucleotide biosynthetic process
GO:0006520 P cellular amino acid metabolic process
GO:0006526 P arginine biosynthetic process
GO:0006541 P glutamine metabolic process
GO:0006807 P nitrogen compound metabolic process
GO:0008152 P metabolic process
GO:0016597 F amino acid binding
GO:0016740 F transferase activity
GO:0016743 F carboxyl- or carbamoyltransferase activity
GO:0016787 F hydrolase activity
GO:0016810 F hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds
GO:0016812 F hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in cyclic amides
GO:0016874 F ligase activity
GO:0044205 P 'de novo' UMP biosynthetic process
GO:0046872 F metal ion binding
GO:0070406 F glutamine binding
Transcript
Level		FPKM:15.59 TPM:17.08
ORF EntryO_BomoFB12773_complete:A_BomoFB_comp10289_c0_seq2
Sequence
(Nucleotide)
AAAAAAGTATTAATCCTAGGCTCCGGAGGCTTATCAATAGGACAAGCCGGAGAGTTCGAT
TATTCAGGTTCGCAAGGCGTGAAGGCTATGCAAGAAGAAAAAAATTCTAACAGTTCTTAT
AAATCCTAACATTGCCACTGTACAAACTTCTAAAGGTTTGGCGGATAAAGTTTACTTTTT
ACCTATAACTCCTGAATATGTAGAACAAGTCATAAAAGCAGAAAGACCAACGGGGATTTT
GCTCACTTTTGGCGGACAAACTGCACTAAATTGCGGAGTGGAACTACAAAAATCTAAAAT
ATTTGAAAAATATAATGTCAGCGTTTTAGGCACACCCATTCAGTCGATAGTTGATACTGA
AGATAGGAAGATATTTGCAGAGAAAATCAATGCGATAGGAGAAAAAGTGGCACCAAGTGC
AGCAGTAACATCAGTCGAAGAAGCACTCGAAGCAGCTCTGCAAATCGGGTATCCGGTGAT
GGCTCGCTCAGCCTTTTCCTTGGGAGGATTAGGCTCTGGTTTTGCGAACAATGAAGATGA
ACTCAAAACATTAGCTCACCAAGCTCTTTCACATTCCGATCAACTCGTTATTGACAAATC
TTTGAAGGGGTGGAAAGAAGTTGAATACGAAGTCGTAAGAGACGCTTATGATAACTGCAT
AACTGTTTGTAATATGGAAAACGTTGACCCATTAGGTATACACACTGGAGAATCTATAGT
AGTAGCGCCAAGTCAAACTTTGTCTAATAGAGAGTATTATATGCTTCGAAATACGGCTAT
AAAAGTTATACGACATTTTGGTATAGTCGGCGAATGTAATATACAATACGCTTTAAACCC
GAATTCTGAAGAATTTTACATTATTGAAGTAAATGCAAGACTTTCGAGGAGCTCAGCATT
AGCCAGTAAAGCAACAGGTTATCCATTAGCATATGTGGCTGCAAAATTAGCTCTCGGAAT
ATCCTTGCCTGTTATCAAAAATTCGGTTACTGGAGTAACCACAGCCTGTTTTGAACCAAG
TTTGGACTACTGTGTTGTTAAAATCCCAAGATGGGACCTCGCCAAATTTAACAAAGTGAG
TACGAAAATTGGAAGCTCTATGAAAAGTGTTGGGGAAGTCATGTCTATCGGCAGGACTTT
CGAAGAAGCATTCCAAAAAGCTTTGCGGATGGTTGACGAGAATGTAAATGGTTTTGATCC
GAACATCAAAAAAGTAAACGAAAATGAGTTAAAGGAACCAACAGATAAACGTATGTTTGT
GTTGGCTGCAGCCTTAAAGAACGGATTTAGTGTTGAAAAGTTGTATGAGTTGACTAAAAT
AGACAAATGGTTCTTAGAAAAGTTTAAGAACATTATTGACTATTACAAAACTCTTGAAAA
ATTAGATTCTGGAACAATTACATCTGACATTTTAAAGCAAGCTAAAAAAATGGGATTCTC
TGATAAACAAATTGCTTCTGCAATAAAGAGTACTGAAGTAGCGATCCGTAAATTAAGAGA
AGAATTCAAAATAACACCATTTGTTAAACAAATAGATACAGTTGCTGCGGAGTGGCCAGC
TACTACCAACTATTTGTATTTAACCTACAATGGAAGCACACATGACATTGAATTTCCGGG
AGAATTCGTTATGGTTTTAGGTTCAGGGGTGTATAGAATAGGAAGTTCGGTAGAGTTCGA
TTGGTGTGCCGTAGGATGTCTCAGGGAATTAAGAAATCAAGGTAAAAAAACAATAATGAT
AAATTACAATCCTGAAACAGTTAGTACTGATTATGACATGAGCGATCGTCTCTATTTTGA
GGAAATATCATTTGAAGTTGTAATGGATATTTATGATATTGAAAGACCTAGTGGTGTAAT
ATTGTCTATGGGGGGACAGCTACCAAATAATATTGCTATGGACCTTCATAGGCAACAAGC
AAAAATATTAGGTACATCGCCGGACATGATTGATGGCGCTGAAAACAGGTTTAAATTTTC
GAGAATGTTAGACCGGAAAGGTATTATGCAACCAAGGTGGAAAGAACTTACGGATTTAGA
ATCGGCTATTGGATTTTGTGAGGAAGTGGGATACCCATGCTTAGTGCGTCCATCGTACGT
TTTAAGCGGTGCTGCAATGAATGTGGCTAATTCTCATCAAGAGTTAGAAACATATTTGAA
ATCTGCAAGTCAGTTAAGTAAAGAACATCCAGTAGTAATTTCTAAATTCATTATGGATGC
AAAAGAAATAGACGTAGACGTTGTAGCAGCTGATGGAATAATTTATTGCATGGCTGTTTC
CGAACATGTTGAAAACGCCGGTGTGCACTCTGGAGACGCAACCCTAGTAACCCCGCCACA
GGATATTAACAACGAAACTTTAGAAAAGATAAAAGAAATATCTGGAATCATAGCTGAAAC
TTTAGACGTAACTGGTCCATTTAATATGCAACTGATAGCAAAAGATAATGACCTAAAAGT
TATCGAATGCAACGTTAGGGTATCGAGATCTTTTCCATTTGTGTCTAAAACATTAGATCA
TGATTTTGTGGCAATGGCCACTAAAATTATTCTGGGACTACCAGTTGAACCGGCTAATGT
GATGGCGGGATGTGGAAAGGTTGGAGTAAAAGTTCCACAATTTTCATTTTCAAGACTGGC
CGGTGCAGACGTTACATTAGGTGTGGAAATGGCATCTACTGGAGAAGTTGCATGTTTTGG
AGAAAATCGATACGAGGCATACTTAAAATCGTTAATGAGTACAGGCTTCAGGATTCCAAA
AAAAGCTATTTTATTGTCTATAGGAACATTCAAGCATAAAATGGAATTATTGCCGAGCGT
TCGATCGTTACAAAAAATGGGATATAAACTTTACGCTAGTATGGGTACTGGTGATTTTTA
TACAGAGCATGGAATCGAGATAGAGAGTGTCCAGTGGACATTTGAGCACATAGGAGATCC
AGAAGATGATAGGTTTGACGGCGAACTAATGCACTTAGCCGATTTTATGGCTCGCCGACA
ATTAGATTTGGTGATCAATTTACCGATGCGAGGTGGTGCCCGTCGTGTTTCTTCATTTAC
TACGCACGGATACCGGACCCGGCGGCTCGCTGTTGATTATGCAGTACCTCTAGTGACCGA
TGTCAAATGCGCCAAGCTCTTAGTGCAGGCAATGTCACAATGTGGCGGTGCTCCTACAAT
GAAAACTCATACTGATTGTATGACGTCACGGAATATTGTCAAATTACCCGGCTTCATTGA
TGTACATGTTCACGTCCGTGAACCCGGTGCAACATATAAGGAAGATTTTGAGACCTGTAC
CGCAGCCGCATTGGCTGGTGGTGTAACGATGATTTGTGCTATGCCCAACACTAACCCCTC
AATCGTTGATCGTACAGCATTTGATTACGCTTCAACATTAGCAAGAGTTAGTGCCCGATG
CGATTATGCTTTGTACGTCGGTGCTTCCTCGACAAATTATGACACAATATGTGAACTGGC
TCCGCAAGCTGCAGCTCTAAAGATGTACTTAAATGAAACTTTTACAACTCTTCTGTTAGA
GGATATGACAATTTGGCAGAAACATTTCCAAAGTTGGCCCAAAAAAATGCCTGTTTGTAC
TCATGCAGAGCGTGAGAAAACCGCCGCTGTCATTTTAATGGCATCTCTCCTTGATCGGCC
TGTACACATTTGTCACGTAGCACGAAAAGAAGAAATATTAATTATCAAAGCCGCAAAAGA
AAGAGGTGTTAAAGTTACTTGTGAAGTTTGCCCACATCACTTATTTTTGAATAGTAATGA
CATTGACAAAATTGGAAAAGGGCGAGCAAAAGTATGTCCAGTATTATGTAGTCCTGAAGA
CCAAGCAGAACTTTGGCGAAATATAAGTATCATTGATGTTTTTGCCACAGACCATGCACC
TCATACTGTGGAAGAAAAGAATTCTGAGAATCCACCACCTGGCTACCCTGGCTTAGAAAC
AATATTGCCTTTGCTACTCAACGCTGTACATCAAGGTCGTTTGACTATTGAAGATCTTAT
TAATAAATTTCATCGTAATCCTCGTAAAATTTTTAACTTACCAGAACAGCCTAACACATA
TGTTGAAGTTGATTTGGATTATGAATGGGTAATTCCAACGTCAATGGAATTTTCTAAATC
GAAATGGACTCCTTTCGCGGGCATGAAGGTATGTGGTGCTATTCATCGTGTCACATTAAG
AGGTGAAATAGCATATGTCGAAGGTCAAATTTTGGTTCCTCCAGGATTCGGTCAAAATGT
TCGCGAATGGCCAATGCCTAAAAAACAAACTTTCCAGACGTACTCGATTGAAAAAGTTGA
AAAAGAAATAAGTCGTCCTAATTCCGCATTGGATATAATTACACCTGGGGACCATCTAAG
ACAAAGCGATATTGACCTAGATCAATTGGAGTCTTCAAGATCAGAAGCTGTTGGAAGACT
AAACGTGCATTTTAATGAAGTGGCCGGTATGCGAAACGTATCCCCTGTTCCACCACAAAC
AGTTACTAGACAAAGATGTGATAGCTCATCGAATTACAATCCACCACAGCCTTCAATTAC
ACAACGACAACGCAGTGATTTGTTCGGCAAAAACATCCTGACTGTAGATACATTTAATAA
GGAAACTCTCAACGACATTTTCAACCTAGCACAATTCATGAAGACAAGTGTAAATAAGGG
ACGTTATTTAGATGACATCTTACGTGGGAAAGTTATGGCCTCAATATTTTATGAAGTCAG
TACACGTACGAGCTGCAGTTTTGCAGCGGCCATGCATAGACTAGGCGGATCTGTGGTACA
TACCGATGCAACAAGCTCTTCTGCAAAAAAAGGCGAATCTCTTGAAGATAGCGTCGCTAT
TATGGCTAGCTATTCAGATGTCGTCGTGTTGAGACATCCTGAACCCGGCGCAGTTTCTCG
CGCATCGAAACTTAGTCGCAAGCCCGTAATAAATGCGGGAGACGGTGTTGGTGAACACCC
CACGCAGGCATTGTTAGACGTTTTTACGATACGAGAAGAAATCGGTACAGTAAATGGCCT
CACGATCACAATGGTTGGCGATCTTAAAAATGGACGCACAGTTCATTCCCTTGCTAGACT
TTTAACTCTATATCAAGTCCAACTTCAATACGTAAGTCCGCCGGGACTAGGTATGCCGAA
GCATATCACGGATTATGTTGCTTCTAAAGGTATACCTCAGAGAGTATACGAGCGCTTAGA
GGACGTACTAGCTGATACTCACGTTTTGTACATGACTAGAATACAACGAGAAAGATTCAA
AAGCCAAGAAGATTATGAAAAGACTCGGGGACTACTGGTTGTGACCCCACAGTTGATGAC
CAGGGCTCGTCGTCGTATGATAGTGATGCACCCTCTACCACGTGTCGATGAAATTTCATC
AGAATTTGACTCAGATCCTCGCGCAGCATACTTTAGACAGGCCGAATACGGAATGTATGT
TCGTATGGCTCTACTCGCAATGGTTGCTGGTGTAAATCCACTTGTGTGAAATGATTTCAT
TTCAAAATGTTATTATTTGTTCTTGGACAATAAATCAA
(5558 bp)

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