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Last updated: 2022/11/18
NameA_TrvaFAMAMG_TR12098c0_g1_i1
Scaffold_id
NCBI non-redundant
(nr)
aldehyde_oxidase_[Ostrinia_furnacalis]
Ontology
GO:0003824 F catalytic activity
GO:0004031 F aldehyde oxidase activity
GO:0004854 F xanthine dehydrogenase activity
GO:0005506 F iron ion binding
GO:0005737 C cytoplasm
GO:0005829 C cytosol
GO:0009055 F electron transfer activity
GO:0009115 P xanthine catabolic process
GO:0009688 P abscisic acid biosynthetic process
GO:0009851 P auxin biosynthetic process
GO:0016491 F oxidoreductase activity
GO:0016614 F oxidoreductase activity, acting on CH-OH group of donors
GO:0046872 F metal ion binding
GO:0050302 F indole-3-acetaldehyde oxidase activity
GO:0050660 F flavin adenine dinucleotide binding
GO:0051536 F iron-sulfur cluster binding
GO:0051537 F 2 iron, 2 sulfur cluster binding
GO:0055114 P obsolete oxidation-reduction process
Transcript
Level
FPKM:67.20 TPM:65.84
ORF EntryO_TrvaFAMAMG15321_complete:A_TrvaFAMAMG_TR12098c0_g1_i1
Sequence
(Nucleotide)
ATAGTGGACAGACGTTTGTGTTATCAGTGTATTATGTGCAGCAAATATGGATAAAATAAA
CTTAACTATCAACGGTGAACAATATAGGATTTCCGGAGGGGATGTGAGTCCAGTGACGTC
ACTAAATGACTACCTACGTCATAACATCCAGCTCCATGGAACAAAAGCGATGTGTCACGA
AGGAGGTTGTGGAGCCTGCGTGGTTTCAGTGCGAAGAACACATCCCACCACCAAGGAGGA
GGAAATACTGGCGGTTAATTCTTGTCTCGTCCACGTACTGTCATGCCACGACTGGAACAT
CACGACAGTTGAAGGGGTCGGCAACCGCGGGTCCGGATACCACGCTATACAAGAACGCTT
GGCTTCGTTCAATGGGACTCAATGCGGGTATTGCACACCGGGATGGGTCATGAATATGTA
TAGCTTATACAAGAGTTCAAAAAAGAGGTTAACAACACAGCAAGTCGAGAACTCCTTCGG
CAGTAATATCTGTCGTTGTACCGGGTACAGACCAATATTGGACGCTTTCAAAAGCTTTGC
CAATGATGTCGATCCGGAAGCTAAAATTCAGGATCTAGAAGACTTACATAAAATGAAGTG
TAGAAGTAATTGTGAGAGAAAATGCAGTGATTCTGATGAGTGGTGTTTTATAGAGAAACC
TTTTCAGTCGCTTTTAGAAGTGAACCTAGCCGGTGGACGCTGGTACAAAGCTTATACTAT
ACAGGATATATTTAATGTTTTGAGACGAGAAGGCAGTGATAATTATAGATTAGTCGCCGG
TAATACTGGACAAGGAGTATACCCTTTAAAATCGGAGCCAAAAATATACATAGACATATC
ATCTATAGAAATACTAAAAAATGTCTACACTGATATGAATTTAATAATAGGAGCCGGTCT
GACATTGACCGAGGTCATGGCCGAGTTCCAAAAATGGTCTTATAACGAAGAGTTCAAATA
TCTAGAGTTGTTCAGGAAACATGTGGATTTGGTCGCGCATGTACCTGTGAGAAATGTAGG
AACTCTTGGCGGTAACTTAGCGTTGAAAAATCAAAACAAAGAGTTTCCTTCAGATATTTT
TCTACTTTTAGAAACAGTTGGTGCTACTGTTAAAATAACTAAAAACGATCTGAAAAGCAG
CGACCTCAGTATGACGGAGTTTTTGAAATCTGACCTCAAAAATAATCTGATAACAAATAT
AGAACTACCTCCTTTATCAAATAGCAATCTCATAAGGACTTATAAGATAATGCCCCGCGC
CCAAAATGCTCATGCCATAGTTAACGCCGGTTTTCTATTCAAAATAGACAAAGAAAACAA
AATCGTAACTACAAACATTATCTATGGTAACATAAGTCCTACTTTCGTCCACGCAACTAA
AACAGAAAATGTGCTGAAATGTATGAAATTGTTTGAAAATGAGACTTTATTGAAAGCTCT
TAGAGAGTTAGATAAGGAACTAGTGCCGGTGGATTTGGAGCCCGAACCCTCGCCTGTTTG
TAGGAAGAGTATCGCCTTAGGACTGTTTTATAAGGCGATTCTCTCACTAGCTCCTTCAGT
GATTCCGCGATATAAATCAGGAGGAACTATACTAGAACGCAATATTTCTAAAGGAACGCA
GATGTTTGAAACTGACAAATCATTATGGCCTTTGAATGAACCGGTGCCGAAACTTGAAGC
CTTGACTCAGTGTTCAGGCGAAGTTAAATACGCTGGTGATGTGTATTTGGAGCCGAGAGC
TGTGCACGTAGCGTTTGTACTCTCTGAGATATGTCTGGGAGAAATCGTGAGCTTTGACCC
TACTGAAGCTTTGAAACTACCAGGAGTCATAGGCTTCTACACAGCTAAAGATATACCAGG
CAAGAACATTTTCAACCCACCCGAAGTCCCATGGCAAGACACTTCTGAAGAAATTCTCGC
TACAAAGAAGATTTCACACTACGGCCAACCAATAGCTTTAATCGCAGCTACTACGCACAG
ACTAGCATTAACTGCAGCTAGTTTAGTCTCAGTCAAATATAAAAAATCTGTAAAAATACC
TGTTTTGAGCATACAAGAAGCGTTAGTGGCGCCTGATAAGGATAAAAGGATTCGTCAAGA
AGTAACAATAAAAGCTACAAGTAAAGGCTCGGATACCCAACACGTGATAAAGGGTAGTTT
CTCCATGCCGTCCCAGTACCACTACACCATGGAGACCCACACTTGTGTGGTTACCAACAA
CTCTCGTGGTGTGGAGGTCCGGTCCTCCACTCAGTGGATGGACATCGTGAATGTGGCCGT
CGCACAGGCGCTTGGTATTGATGAGAATAAGGTAGAAGTAATAGTGCCTCGTGTTGGCGG
CGGGTACGGTGGCAAGGCGTCCCGTGCGGCGCAGGTCGCGTGCGCATGCGCAGTGGTCGC
GCACCGTACGCGACGCACCGCCTCGCTCGTCATGCCGCTCACTGACAACATGGCTGCCAT
CGGGAAGCGGTCTCAGTGCGACTGTGTGTATGAGGTCGGAGTAAACAACGAAGGCATCAT
CCAATACGCCAGCATAGATTACTACGCGGACTGCGGGTACACGTATAACGATAGTCCCGG
CGCAGACATTGCGACCACGCTAACTAATCTGTACTCGTCTGATACTTGGAGTATCAACGG
GTATAGTGTACTCACTGATAAACATAGCAATACTTGGTGCAGAGCGCCTGGCACAACGGA
AGCGACTGCAATAATAGAACATTTAATGGAAAGGATAGCTCATATTACTGGACAGGACCC
TACAGATGTAAGAGTGTCGAATTTGGCGCCAAAACACGCTCAAGTTAAAGACATGATCAC
TAGTTTCAAACACGACGTCGAATTTGATGACAGAATGACTGAAATCATAAAGTTTAATGA
GGATAATGCTTGGAGGAAGATGGCTTTGAAATTATCTGTCATGTCTTATCCTATCGGCTA
CTCTTACAACTTCCCCGTAACAATATCAATATACCACGCCGACGGCACCGTAGCCATATC
TCACGGCGGCATCGAAATGGGCCAAGGCATCAACACTAAAGTAGCACAAGTTTGCGCATA
CAGCCTGAAAATTCCTTTAGAAAAAATCACAGTTAGAGGCAGCAATAGTTTTATATCTCC
AAACTCTATGGTCAGTAATGGTAGTATGACCAGTGATTGTGTAGCCTATGCTACTATTAA
ATCCTGTGAGGAGTTGCTGAATAGATTCAAGGATGTGACGAAGGATATGGATGAGCCGAC
GTGGGAGGAAACTGTTAAAGCTGCGTATGATAAAGGTATAAACTTACAAGCGTCATACAT
GACGTCACCAAACGACAACTTACAAGGGTATGATGTGTACGGTGTGTGCGCAGCGGAAGT
CGAAGTCGATGTTCTGACGGGAACACACGTGGTCACCAGAGTCGATATTTTAGAAGACAC
GGGGATTAGTATGAGCCCTGACATAGATGTTGGACAGATAGAAGGAGCATTCATAATGGG
CCTCGGTCTATGGACATCCGAGAGACTTGTCTATGACAGAACAGGAAGACTCCTCACTGA
TAGAACATGGACGTACAAGCCGCCCGGCGCTAAGGACATTCCAGTTGACTTTAGGATCTC
GTTTAGAAGAAACGCGCCTAACCCTGCAGGAGTTTTGAGGTCTAAAGCGACCGGAGAGCC
TGCGTTAGTATTAGCTGTAGTAGTAACACACGCACTTCACGACACTATTCTAGAAGCGAG
AAAAGAATATGGATATAATGATACAGAATGGGTACATGTTGATACACCATACAGCGTAGA
AAACATACTAAAGGCGATATCACCGAAAATTGACAGCTTTAAATTGTATTAAATCAACAC
TCATTCTATAACTGTAGATACTACAATTATAGATAATTATTATTGTGTACTATTTGATGT
TTAATATAATAAAAATGGTAAAATACAAAAAAAA
(3934 bp)

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