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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_BomoASG_c26827_g1_i2
Scaffold_idBomo_Chr24
NCBI non-redundant
(nr)		PREDICTED:_ATP-citrate_synthase_[Amyelois_transitella]
Ontology
GO:0000166 F nucleotide binding
GO:0003824 F catalytic activity
GO:0003878 F ATP citrate synthase activity
GO:0005515 F protein binding
GO:0005524 F ATP binding
GO:0005654 C nucleoplasm
GO:0005737 C cytoplasm
GO:0005739 C mitochondrion
GO:0005886 C plasma membrane
GO:0006085 P acetyl-CoA biosynthetic process
GO:0006101 P citrate metabolic process
GO:0006107 P oxaloacetate metabolic process
GO:0006629 P lipid metabolic process
GO:0008152 P metabolic process
GO:0008610 P lipid biosynthetic process
GO:0016020 C membrane
GO:0016740 F transferase activity
GO:0046872 F metal ion binding
GO:0046912 F acyltransferase, acyl groups converted into alkyl on transfer
GO:0048037 F obsolete cofactor binding
GO:0070062 C extracellular exosome
Transcript
Level		FPKM:15.33 TPM:11.76
ORF EntryO_BomoASG11186_complete:A_BomoASG_c26827_g1_i2
Sequence
(Nucleotide)
TGACAGAACAAGGAGATTTTTCTGTCACACACTGTTTCCTATCATTCGGATTAATAACGC
GTTCGTCGGGTCACGACGATTATAATTTATTATCATTTCACAATTATCAATAAGCTATCG
ATTACAGACATCAGCCGTCCCGCCGCTTTGCAATCAATCTCGACCGGCCATATGTCGTGA
AAACTGACGAAGGGTTACAATTATTATTATTGTGGTAGTTTATTTATTTTTATAAATTCT
TTCAAAAATAAAAGATGTCGTCGAAAGCTATCTACGAGGCAACGGGAAAGGATCTGATCA
ACAGACACATAGCCTCCGGTACGGCTCTGGTACCGTGCAGGTTCGCCACATTCGAACAGA
GCACAGTGTGGGAGGATGAGCTGGGAAAAAATCCATGGCTCTCGAAGGAGCAATTGGTCG
TGAAGCCGGACCAGCTAATCAAGCGTCGCGGCAAACTGGGTCTGGTCGGCGTGAACAAGA
CTGCGGCGGAGGTCCGGCGTTGGCTCGGCGAGCACATGGCCAAGGAGCAGACGATAGGGG
CCTGCGTCGGGCGGCTGAGGCACTTTATAGTCGAGCCCTTCGTCAAACACGAACCGAGCG
ACGAGATGTACCTGTGCATACAGTCGGGCCGGCGCTCCGACACCATCCTGTTCCACCACC
AGGGAGGGGTCGACGTCGGAGATGTGGACGCCCTGGCCATCCGACTAGAGGTGCCCGTGG
ACACCTTCCCGACGGGAGAAGAAGTCGAGAGGGTTTTGTTGAAGAACGTCAAATCTCCAT
CTACTAAAAGGACCCTGACGACGTTCATAGTGTCTCTATACCGCGTCTACATTGACTTGT
ACTTCACGTACATGGAGATCAATCCGCTGGTGGTGACCAACGAGAGGATATACCTGCTGG
ACCTGGCCGCGAAACTGGACCAGACCGCGGACTTCATCTGCGCGAAGAACTGGGGTGAGG
TCACGTTCCCTCCGCCCTTCGGGAGGGACGCCTACCCTGAAGAAGCGCACATCGCCGACC
TGGACGCCAAGAGCGGGGCCAGTCTGAAGTTGACGGTGCTGAACAAGTCTGGTCGCGTGT
GGACGATGGTGGCGGGCGGCGGCGCCAGCGTGGTGTACACGGACACGGTGTGCGCGCTGG
GCGGCGCTCACGACCTGGCCAACTACGGGGAGTACTCGGGCGCGCCCACGGAGACGCAGA
CCGCGGACTACGCGAAGACCATCTTCAGCCTCATGTGCCGCGAGAAGCATCCCGACGGGA
AGGTACTGATCGTGGGTGGCGGCATCGCCAACTTCACCAACGTGGCGGATACCTTCCGGG
GCATCATCACCGCCATAGAGACGTACAAGGACGCCCTAAAGCAGTACAACGTCACCATCT
TCGTGAGGAGAGGGGGACCAAACTACCAGGAGGGACTCAGACAAATGCGCGAAGTGGGCC
AGCGCCTCCGCATCCCGCTGTACGTGTTCGGTCCGGAGACGAACATGACGTCCATAGTGG
GCCTGGCGCTGGGACACTCGCCCATACCCAAGGAGCACCAGCTCGACTACGCGCCCAAGC
AGCTGCCCAGGCCGCAGCCAGCGCCGGCTCCGAAACTGGACCTGCCTGACGTGACCCACA
GCCTGCTCGACCTGATCTGCTCCCAGGCTCCGACCAAGCTCGACCTGGGCCAGGGCGTCT
CCACCTCGATGCCCCTCTTCAGCGATAGGACGAAGGCCATCATATGGGGCATGCAGAATA
GGGCCATACAGGGCATGTTGGACTTCGACTACATCTGCCGGCGCTCGGAGCCCTCGGTCG
TCGCCATCGTGTACCCGTTCACGGCGGACCACAAACAGAAGTACTACTTCGGGAACAAGG
AAGTCTTCATACCGGTGTTCTCGGACATGGACGTGGCGATGCGCAAGCACCAGGAGGCGA
CGGTACTCGTCAACTTCGCTTCGCTTCGCTCGGCCTACGACAGCACCATGCAGGCCATGC
AGCACCCTCAGATCAACACCGTGGTCATCATCGCGGAGGGCATCCCCGAGAACATGACGC
GGAAGATCATCAAGCTCGCTGACGTCAGAGGGGTGAACATAATCGGGCCTGCCACTGTGG
GAGGCATTAAACCCGGCTGCTTCAAGATCGGTAACACGGCTGGCATGATTGACAATATCA
TTGACAGCAAACTGTACCGGCCTGGGAGCGTGGCGTACGTGTCCCGCTCGGGAGGCATGA
GCAACGAGCTGAACAAGATCCTGTCGAAGGACGCGGACGGCGTGTGCGAGGGGGTCGCCA
TCGGGGGCGACCGCTACCCTGGGACCACCTTCATCGACCACCTGCTCAGGTTCGAAGCGG
ACCCGCAAGTGAAGATGCTGGTGCTGCTTGGAGAAGTGGGGGGAGTCGAGGAGTACCACG
TCTGCAAGGCCATCAGGGACGGAATCATCAAGAAGCCCCTCGTGGCCTGGTGCATAGGAA
CTTGCTCCGACATGTTCACGTCTGAGGTCCAGTTCGGACACGCGGGCTCGCTGGCTGGCT
CCGCCGTTGAGAAGGCTGCGGTCAAGAATGAGGCTCTGAAGGCCTACGGAGCGACCGTGC
CGGACTCCTTCGACGGCCTAGGGGCTGCCGTGGGCGAGGTCTACCGCAGGCTGGTCGACG
AGGGCAAGATCATCGTCAAGGAGGAGGTGGAACCGCCCAAGGTCCCCATGGACTACGATT
GGGCTCGGAAGTTGGGTATAATCCGGAAGCCGGCCGCCTTCATCAGCACGATATGCGACG
AGCGAGGCCAGGAGCTGAGCTACTGCGGGGTGCCCATCTCCCAGGTGCTGGAGAGGCAGC
TCGGGGTCGGCGGCACCGTCAGCCTGCTGTGGTTCCAGCGCGAGCTGCCGGAGTGGGCGA
GCCGGTTCTTCGAGCTGGTGCTGATAGTGACCGCGGACCACGGGCCCGCCGTGTCGGGCG
CGCACAACACCATGGTCACGGCGCGCGCCGGCAAGGACCTCATCTCCTCCGTCGTCAGCG
GCCTGCTCACCATCGGCGACCGGTTCGGTGGGGCCCTGGACCGCGCCGCGGCTGACTTCT
GCGCCGCCTACGACAAGGGACAGCACCCCCAGGAGTTCGTCAACGAGAAGAGGGCCAAGG
GGGAGCTGATCATGGGCATCGGACACAGGGTGAAGTCGATAAACAACCCGGACTCCCGCG
TGCGCGAGCTGAAGGCGTACGTGACGGCGCGCTGGCCCGCGTGGCCGGTCACCCGGTACG
CGCTCGACGTGGAGGCCATCACCACCAGGAAGAAGCCGAACCTCATCCTCAACGTGGACG
GCATCGTGGCCGCTGCCATGGTCGACCTGTTCCGCCACTGCCAGCTCTTCACGCAAGATG
AAGGCAATAATTATATTCAGATGGGCTCAATCAACGCTCTGTTCGTCCTGGGTCGCACGA
TAGGTCTGGTCGGACATTACTTGGACCAGAAGAGGATGAAGCAGCCTCTGTACCGTCATC
CGTGGGACGACATCACCTACATGTCGCCTCTGAACTAAGTGACCCGGTTGTATTTTGTGT
TTCAAACGTAGAAATAATGTTGAATGATTTGCACGAGAACATCGACCTATAAGTACAATT
GTGACGTCACAGCGTCAGACTTCAAGCCCGCAATGGAATGTAAATTTTTGTTTATGTGTT
GTAATACTAGTTTATTCTTTCGGCCTCGGTCGAGACCGCGTTGTATGTGCGCGTAATGAA
TGACAACAGCAGAATCGTTGTAGCACCATGATTTGAATCAATTTTGATATGATTTTTTTT
ATTATTATATTATGTCTAAGAATAATAGTCTAAATTCCATGGAAAATACAAGAATATTGA
AATAAATTCGCGTAGGAAGCGATATTTGCTCAAAGCGGTTCGGACCAGGCCTCTAGTGTC
GAAGAAATCTCTTGGTTGTGTTCAGAATAATGTCTGGTAAATACATCATGTTGTTCCCTA
ATATGTCACAGATACTTAA
(3979 bp)

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