SilkBase IMG001 IMG002 IMG003 IMG005 IMG006 IMG007 IMG008 IMG009 kuwako IMG010 IMG011 IMG012

Last updated: 2022/11/18
NameA_BomoSK_comp12797_c0_seq1
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:5.52 TPM:5.56
ORF EntryO_BomoSK11984_complete:A_BomoSK_comp12797_c0_seq1
Sequence
(Nucleotide)
CAGCGACAGCGTCGGACCGTTCGCGATCGGCCGAATTATAAACCACGTGGCCGGCTTCTA
AACCTCAAAAAAATGGAAAATGATGATTTGAGCTGCGACTTAGGCCCGCTGTGTTGCCTT
GTGCTGGAGGATGGAACTATACTTCATGGTAGGAGCTTTGGTGCTCAAGTGCCCGTTGAA
GGCGAAGTTGTTTTTCAAACGGGCATGGTAGGATATCCGGAATCCCTGACAGATCCGTCG
TACAACGCACAACTACTGGTGTTAACTTATCCTCTCATTGGAAACTATGGAGTTCCGGAT
GAGAATGACCGAGACGAACACGGTATTAGCAGGTGGTTTGAATCCGACCGTATTTGGGCA
GCTGGTTTGATAGTGGGGGAAGTCAGCAAACGTGCTTATCATTGGCGTGCCAAATGTTCC
ATAGGAGCATGGCTAGCCCAGCATCGGGTCCCTGGTATATGTGACATTGATACACGCGCT
CTAACTTGCCGTCTCAGAGAAGGTATAACTCTCGGGAAAATCATACAAGGCTTACCGCCG
TCTACTCCACTTCCACCGTTCACAGATCCGAACTTACGAAACTTAGTTGCCGAAGTGTCA
ATTAAGCAACCACGAGTTTTTAATAAAAATGGAGAGATAACAATTTTGGCAATCGACTGC
GGTTCAAAATACAATCAAATTAGATGTTTTATCAAAAGGAACGCGAAAGTCGTTCTAGTA
CCGTGGGACTACAAGCCCAACCCAAATGAATACGATGGCTTGTTCATAAGCAACGGGCCA
GGCGATCCGGAAATTTGCAAAAAAGTTGTAGAAAACTTACAATTTGTTATGAAAAATCAA
AATATTGTAAAACCTATCTTTGGTATTTGTCTAGGACATCAACTATTATCTACCGCAGCG
GGGTGCAAAACTTACAAGACCAAATATGGCAACCGTGGTCACAACTTGCCGTGTACTCAC
AGTTCCACTGGCAGATGTTTCATGACTTCGCAGAACCATGGCTACGCCGTCGATACCGAT
TCTTTGCCTGAAGGATGGAAAGTTTTGTTCACCAATGAAAATGATAAGACTAACGAAGGA
ATCATTCACAAGTCTGCGCCTTATTTCAGCGTTCAATTTCATCCTGAACACACTGCGGGC
CCTACGGATTTAGAGTTTTTGTTTGACATTTTTGTTGATGCAGTTAAAAGTTATAAAAAT
AACGTAAATTGTGTTATAGATGAAATGATAAATGAAAAATTGAAATTTATTCCAACAATT
CACGATAGACCGAAAAAAGTATTAATCCTAGGCTCCGGAGGCTTATCAATAGGACAAGCC
GGAGAGTTCGATTATTCAGGTTCGCAAGGCGTGAAGGCTATGCAAGAAGAAAAAATTCTA
ACAGTTCTTATAAATCCTAACATTGCCACTGTACAAACTTCTAAAGGTTTGGCGGATAAA
GTTTACTTTTTACCTATAACTCCTGAATATGTAGAACAAGTCATAAAAGCAGAAAGACCA
ACGGGGATTTTGCTCACTTTTGGCGGACAAACTGCACTAAATTGCGGAGTGGAACTACAA
AAATCTAAAATATTTGAAAAATATAATGTCAGCGTTTTAGGCACACCCATTCAGTCGATA
GTTGATACTGAAGATAGGAAGATATTTGCAGAGAAAATCAATGCGATAGGAGAAAAAGTG
GCACCAAGTGCAGCAGTAACATCAGTCGAAGAAGCACTCGAAGCAGCTCTGCAAATCGGG
TATCCGGTGATGGCTCGCTCAGCCTTTTCCTTGGGAGGATTAGGCTCTGGTTTTGCGAAC
AATGAAGATGAACTCAAAACATTAGCTCACCAAGCTCTTTCACATTCCGATCAACTCGTT
ATTGACAAATCTTTGAAGGGGTGGAAAGAAGTTGAATACGAAGTCGTAAGAGACGCTTAT
GATAACTGCATAACTGTTTGTAATATGGAAAACGTTGACCCATTAGGTATACACACTGGA
GAATCTATAGTAGTAGCGCCAAGTCAAACTTTGTCTAATAGAGAGTATTATATGCTTCGA
AATACGGCTATAAAAGTTATACGACATTTTGGTATAGTCGGCGAATGTAATATACAATAC
GCTTTAAACCCGAATTCTGAAGAATTTTACATTATTGAAGTAAATGCAAGACTTTCGAGG
AGCTCAGCATTAGCCAGTAAAGCAACAGGTTATCCATTAGCATATGTGGCTGCAAAATTA
GCTCTCGGAATATCCTTGCCTGTTATCAAAAATTCGGTTACTGGAGTAACCACAGCCTGT
TTTGAACCAAGTTTGGACTACTGTGTTGTTAAAATCCCAAGATGGGACCTCGCCAAATTT
AACAAAGTGAGTACGAAAATTGGAAGCTCTATGAAAAGTGTTGGGGAAGTCATGTCTATC
GGCAGGACTTTCGAAGAAGCATTCCAAAAAGCTTTGCGGATGGTTGACGAGAATGTAAAT
GGTTTTGATCCGAACATCAAAAAAGTAAACGAAAATGAGTTAAAGGAACCAACAGATAAA
CGTATGTTTGTGTTGGCTGCAGCCTTAAAGAACGGATTTAGTGTTGAAAAGTTGTATGAG
TTGACTAAAATAGACAAATGGTTCTTAGAAAAGTTTAAGAACATTATTGACTATTACAAA
ACTCTTGAAAAATTAGATTCTGGAACAATTACATCTGACATTTTAAAGCAAGCTAAAAAA
ATGGGATTCTCTGATAAACAAATTGCTTCTGCAATAAAGAGTACTGAAGTAGCGATCCGT
AAATTAAGAGAAGAATTCAAAATAACACCATTTGTTAAACAAATAGATACAGTTGCTGCG
GAGTGGCCAGCTACTACCAACTATTTGTATTTAACCTACAATGGAAGCACACATGACATT
GAATTTCCGGGAGAATTCGTTATGGTTTTAGGTTCAGGGGTGTATAGAATAGGAAGTTCG
GTAGAGTTCGATTGGTGTGCCGTAGGATGTCTCAGGGAATTAAGAAATCAAGGTAAAAAA
ACAATAATGATAAATTACAATCCTGAAACAGTTAGTACTGATTATGACATGAGCGATCGT
CTCTATTTTGAGGAAATATCATTTGAAGTTGTAATGGATATTTATGATATTGAAAGACCT
AGTGGTGTAATATTGTCTATGGGGGGACAGCTACCAAATAATATTGCTATGGACCTTCAT
AGGCAACAAGCAAAAATATTAGGTACATCGCCGGACATGATTGATGGCGCTGAAAACAGG
TTTAAATTTTCGAGAATGTTAGACCGGAAAGGTATTATGCAACCAAGGTGGAAAGAACTT
ACGGATTTAGAATCGGCTATTGGATTTTGTGAGGAAGTGGGATACCCATGCTTAGTGCGT
CCATCGTACGTTTTAAGCGGTGCTGCAATGAATGTGGCTAATTCTCATCAAGAGTTAGAA
ACATATTTGAAATCTGCAAGTCAGTTAAGTAAAGAACATCCAGTAGTAATTTCTAAATTC
ATTATGGATGCAAAAGAAATAGACGTAGACGTTGTAGCAGCTGATGGAATAATTTATTGC
ATGGCTGTTTCCGAACATGTTGAAAACGCCGGTGTGCACTCTGGAGACGCAACCCTAGTA
ACCCCGCCACAGGATATTAACAACGAAACTTTAGAAAAGATAAAAGAAATATCTGGAATC
ATAGCTGAAACTTTAGACGTAACTGGTCCATTTAATATGCAACTGATAGCAAAAGATAAT
GACCTAAAAGTTATCGAATGCAACGTTAGGGTATCGAGATCTTTTCCATTTGTGTCTAAA
ACATTAGATCATGATTTTGTGGCAATGGCCACTAAAATTATTCTGGGACTACCAGTTGAA
CCGGCTAATGTGATGGCGGGATGTGGAAAGGTTGGAGTAAAAGTTCCACAATTTTCATTT
TCAAGACTGGCCGGTGCAGACGTTACATTAGGTGTGGAAATGGCATCTACTGGAGAAGTT
GCATGTTTTGGAGAAAATCGATACGAGGCATACTTAAAATCGTTAATGAGTACAGGCTTC
AGGATTCCAAAAAAAGCTATTTTATTGTCTATAGGAACATTCAAGCATAAAATGGAATTA
TTGCCGAGCGTTCGATCGTTACAAAAAATGGGATATAAACTTTACGCTAGTATGGGTACT
GGTGATTTTTATACAGAGCATGGAATCGAGATAGAGAGTGTCCAGTGGACATTTGAGCAC
ATAGGAGATCCAGAAGATGATAGGTTTGACGGCGAACTAATGCACTTAGCCGATTTTATG
GCTCGCCGACAATTAGATTTGGTGATCAATTTACCGATGCGAGGTGGTGCCCGTCGTGTT
TCTTCATTTACTACGCACGGATACCGGACCCGGCGGCTCGCTGTTGATTATGCAGTACCT
CTAGTGACCGATGTCAAATGCGCCAAGCTCTTAGTGCAGGCAATGTCACAATGTGGCGGT
GCTCCTACAATGAAAACTCATACTGATTGTATGACGTCACGGAATATTGTCAAATTACCC
GGCTTCATTGATGTACATGTTCACGTCCGTGAACCCGGTGCAACATATAAGGAAGATTTT
GAGACCTGTACCGCAGCCGCATTGGCTGGTGGTGTAACGATGATTTGTGCTATGCCCAAC
ACTAACCCCTCAATCGTTGATCGTACAGCATTTGATTACGCTTCAACATTAGCAAGAGTT
AGTGCCCGATGCGATTATGCTTTGTACGTCGGTGCTTCCTCGACAAATTATGACACAATA
TGTGAACTGGCTCCGCAAGCTGCAGCTCTAAAGATGTACTTAAATGAAACTTTTACAACT
CTTCTGTTAGAGGATATGACAATTTGGCAGAAACATTTCCAAAGTTGGCCCAAAAAAATG
CCTGTTTGTACTCATGCAGAGCGTGAGAAAACCGCCGCTGTCATTTTAATGGCATCTCTC
CTTGATCGGCCTGTACACATTTGTCACGTAGCACGAAAAGAAGAAATATTAATTATCAAA
GCCGCAAAAGAAAGAGGTGTTAAAGTTACTTGTGAAGTTTGCCCACATCACTTATTTTTG
AATAGTAATGACATTGACAAAATTGGAAAAGGGCGAGCAAAAGTATGTCCAGTATTATGT
AGTCCTGAAGACCAAGCAGAACTTTGGCGAAATATAAGTATCATTGATGTTTTTGCCACA
GACCATGCACCTCATACTGTGGAAGAAAAGAATTCTGAGAATCCACCACCTGGCTACCCT
GGCTTAGAAACAATATTGCCTTTGCTACTCAACGCTGTACATCAAGGTCGTTTGACTATT
GAAGATCTTATTAATAAATTTCATCGTAATCCTCGTAAAATTTTTAACTTACCAGAACAG
CCTAACACATATGTTGAAGTTG
(5362 bp)

- SilkBase 1999-2023 -