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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_TrvaFAMAMG_TR10688c0_g1_i1
Scaffold_id
NCBI non-redundant
(nr)		PREDICTED:_phosphoribosylformylglycinamidine_synthase_[Amyelois_transitella]
Ontology
GO:0000166 F nucleotide binding
GO:0004642 F phosphoribosylformylglycinamidine synthase activity
GO:0005524 F ATP binding
GO:0005737 C cytoplasm
GO:0006164 P purine nucleotide biosynthetic process
GO:0006189 P 'de novo' IMP biosynthetic process
GO:0006541 P glutamine metabolic process
GO:0009156 P ribonucleoside monophosphate biosynthetic process
GO:0016874 F ligase activity
GO:0046872 F metal ion binding
Transcript
Level		FPKM:0.04 TPM:0.04
ORF EntryO_TrvaFAMAMG11566_3prime_partial:A_TrvaFAMAMG_TR10688c0_g1_i1
Sequence
(Nucleotide)
CTTAAAAATTGTATTAATATTTTTCATACCCGCATAACTGAAGCCTCCAGGGAAAACAAC
ACCTTGGAAAGCGTCGAGTGTAATTTTCTTGTTTTGTAAATCGCTCATTGTTACATCAAA
CACATCAAAGTTGGCCATCATTAGGGATGCGATCATTTCCCTGTCTCCATTGATACCTTC
TTCACGAAGGACGGCAACCCTTATGGATTTAGATTTAACAAGCGCAGCTGAGGGATCAAA
TGCGACGTTGTAAGTGGCGCCCTTTCGTTTTTCAAGTCCTTTCCATTCTTGTTCGATACA
GTCTGAGTTCGCTTGCAAACACTCCAGCCGATAACTTGTTTCTTCCCACATTCTGAAGAC
ATCAATTAGCTGAGCATCCAATACTTTAGATCCATTTACATTGACTACAACCTGAGAATT
CATTCCATACTTTCCAGTATATCCAATATGTTTAGCGATAACCCCTTCACTGCTGTAAGC
ATTCAGGGCATATTGTAAATCTTTTTGGGAAACTTCTAGAACAATACCCAGCTCTTCGTT
AAACAAAGCTTCGATAGCAGTCACATTGTTGTTTACTTTGATGTCGAGGTTTACACCACG
AATACCAGCTATACCCATTTCTAGTACTGTTGTTATAAAACCGCCTTCACTTATATCGTG
GCCGGATAGCAATTTATTTTCTTTGAGTAATTTTTGTGTTATTTTGAAAATGGTTTTCAA
AACAATTGGATCGTCTAAATCAGGTGTAATGTCACCTAATTGTTTGTAACACTGAGCCAG
GGCGGATCCGCCAAGTCTGTATTTTCCTGGCGTAATAGGTACATGTATCAAAGCAGAATT
TTCCTCTTGAAGCGCCGGTTCGATTTTAACTGTAATGTTCGGACACGGCGCGTATGTGGA
GACTACCAAAGTTCCCGGAGACTTAACTTTCTCCCCTGCGATTTGTGCGCACATAGAGAG
TGAGTCTTTCCCTCCGTCGACGGCTACTCCCAGTTTACGCATGGCGTCACAGAGCGCTAC
GCAGGCGACAGTCAAAGTACCGCCTTCTACGCCCGTCTTGCCGCCCCACATCCAATTGCC
TGAACATTTCACGTCTTCTAACTCCGAAATACCGGCGAATACCAAATTGGTCAAAGCTTC
TCCTAAAGATAGTCTAGCTCCAGCGGCAGGGTCCAGTAGTCCCTTGATGTTCTGTGTGCC
TATAGAAGTGGCGGATCCAACGAGGTCGTAATAAGAGAGCGCAATGATCGCACAATCCGC
TAGTGGAGTGTGTAGTGGACCCACACACTGTTGTTGGGCCACTAAACCGGATACACAACG
GTCTACCTTGTTTGTCAAATATCTCTTGCTGGCAACATTGACTAATCTCAAGACACGATC
CAGCGCACTTTTAACTGTTATGTTTTTAGGAAATGATAAAGGTAACTTTGTTCTTTTCTC
AGTTTGCAAATCAAAAGTCTTGCGGGGCATGTTTCCTAAAACAGCTTCTAAATGTAAATC
GTACGGCAATTTCGATTTAACATCAGGTTTAGATCGTTCTGATCTTTCTAGAAACTTGTC
GGTATATTCGTCTTCAATTAGACTCATGAATCCATCACCAGTTACTTCTCCGACAAATGA
AACAGGGCAACGTTCACGACGACATATATCTTCTAATACATGTCGGTTAGCTTTAGAACA
CAATAACGCGTCATTTTCTTGGTACTCCGCGCCCCATAGCTCGAGAGTAGTGATAGTAGG
ATCTCCTAGTTGAAACTCCTTTGTGAATACCACAGCTCCTTCTGGTTCTACGAGTTCCTT
TAGTACATTTCCATTACCGCCAGCTCCTTGATCGTGAATTGATTCAATAGGATTGATGTC
GGATTCTAAGCATCCACGAACGACGCGATTTAGACGATTACCCATTTCTGCATCACCTCT
TTGCACGGCCCCAAAGTCGAGTGCATGATCTCTAGAATCACCGCCCTGCACGGCCACTGA
TGAGGCAGCTCCTCCGCCCACACCGATGCGGTACACGGGACCACCGATTTTCACCAGAAG
CATTCCTTTCTCAGGTTTATTCTTCTTTATCATTGTGTGTGGCATGTAACCAATACCACC
ACTAAACATTATTGGTTTCACAAACTCTTCTCTCACATTATCCGCATTTTTTAATCCGTA
TGACTGAACAAACCCAGATATTAATGGTTCTCCAAACTTATTTCCATAGTCAGATGCTCC
ATTACTGGCTTCTATGATTATCTGTAGAGGTGTTGCAAAGTTGTTGGGATATTCCCAGTC
TTTCTCTTCCCAGGGTAGATCATATCCTGGTATATGTAAATTGCCAACACTGTAGCCCGC
AGTCCCGGCAACCGTATGACCCCCGCGACCGACCCCTTGCACGTCCCGTATCCGACCCCC
GGTGCCGGTCGTCGCTCCACTGAACGGAGCTACGGCTGTTGGCATGTTGTGAGTCTCGGC
AGTGAATATTATATCCGACTCTGTTGTCTCTTCAATTATTTGAGAGGGAACACGAACATT
TGAAGGCCGTAATATCGTATGTTGAAAGCCTTTGATAGCACTACTGTTATCTCCAAACTT
GATAACATTATTATTATTTGATGTTTTTTGAGTTGATGCAACCATATCAATCAAAGATTC
GTTTATTTCTTTGCCATCCAATACCAATTTACCCTTGAAGAACCAATGACGTGAATGTTC
GCTGTTGCTCTGGGCGAGGTCAAATAACTCTACACTTGTAGGATCTCTTTTCAATTTGTT
CACAAACAAGTCTAAGTAAAATTCCATGTCCCATGCATCGAAGGCTAAACCTAGTTTATC
ATTGACTCTCTTCATAGCTGAGATGCCTTCCTTCTGCAACGGCACAACAAACCATGGCTC
TAAATCTTTTGGAAGACCTTCATTGAAACTTTTACGAGGGAGATTCTCCTTTGTATAAAC
ACATTGTGTCATTCTATCATGTAAAACTGCTGCTAAACTATCAAAGAGCTTTCCTGAGAC
ATTTTTAGGTTTATTAAATATAATAAGGTATCTTGTAGATACTTCAAGACGTACAACATC
ACTCAGGCCGACACTTTCACAGATCTGCACTGAGTTACTGGAGTCTGCTGTTGAAAAATT
AAACCTTGGACCAATTTCAATTAAAACTTGTTTGCTGTCAACGTCTTTGAAGACACTTTC
ATTTCTAATAGCTTGAGGCTGCAACGGTGAACTGAGAAGCCACTTCAATACTTTTGTCTG
ATTTATATTCAGGTAATCACATCCTTCATCAAGCTCAACATGGTAGCACAACTCGGTAGA
CAAATCCTTCACATCATCATCTACTAGTTTCAACTTTTGTAATATTTCATTTGTTTTATG
TGCACTAAATGCTTCAGCAGAAAAAAATCTTATAATGGACATTATAGCTTATAACGCACG
AATAACGATCAGTTTAAAACAATCGTTCATAGAATAATGATATGTTGAAGAGAAATCAGA
AATAATCGCCCCACTCAAGTATGGTGTCAGAGTTCAAATAACTGATAACGAGTATGATTT
TTCTGTCAGGAATTTAGGAGTTGATAAATTCTGGTTTAAATTACTGTTAAAATTTAACAA
AACAAAATCTTTAACACGTCTCATAATAAAACTTTTTAAACTTTTTCTTAGATTCTCATT
TTGAAATTGACTTTTTTTATTTATT
(3685 bp)

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