| Entry |
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| Name |
(RefSeq) LOW QUALITY PROTEIN: probable aldehyde oxidase 1
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| KO |
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| Organism |
aqu Amphimedon queenslandica (sponge)
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| Pathway |
| aqu00983 | Drug metabolism - other enzymes |
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| Module |
| aqu_M00958 | Adenine ribonucleotide degradation, AMP => Urate |
| aqu_M00959 | Guanine ribonucleotide degradation, GMP => Urate |
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| Brite |
KEGG Orthology (KO) [BR:aqu00001]
09100 Metabolism
09104 Nucleotide metabolism
00230 Purine metabolism
100631413
09110 Biosynthesis of other secondary metabolites
00232 Caffeine metabolism
100631413
09111 Xenobiotics biodegradation and metabolism
00983 Drug metabolism - other enzymes
100631413
09140 Cellular Processes
09141 Transport and catabolism
04146 Peroxisome
100631413
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:aqu04147]
100631413
Enzymes [BR:aqu01000]
1. Oxidoreductases
1.17 Acting on CH or CH2 groups
1.17.1 With NAD+ or NADP+ as acceptor
1.17.1.4 xanthine dehydrogenase
100631413
1.17.3 With oxygen as acceptor
1.17.3.2 xanthine oxidase
100631413
Exosome [BR:aqu04147]
Exosomal proteins
Exosomal proteins of breast milk
100631413
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
Unknown
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| AA seq |
1195 aa
MDGPLKTIRFSFNGKEVELNGPSSQASLNDWIRSQPGLTGTKKMCSEGGCGCCVVSLTKT
DLLTKKLLTIAVNSCLCPLYSINGCSVTTVEGIGSSRKGFHPLQKKIAELNGTQCGYCTP
GMVMNMYSLLQENPKPTKQLVEDSFDGNICRCTGYRSILDAMKSFAVDSIETQITDIEDV
NLIKCSSCPAKKESNNWCTQSRSTADPIRYQPTKLSEVFDIYQANLSASIKFVSGNTGKG
VFKESAQFDIYIELNSVQDLHFVDVQDTHISVGAGASINALIDILWSNRDKSNSFKPLTD
HLKKIANVPVRNVGTWAGNLMLTHNHDNFPSDVFTIMEAAGATVTIAHIGGTGEYPLWDF
LNLDMNKKVIVSLQIPYCHSXXXRSYTELSNEIKPNAPPVSASPSYRKSLALSLFYKFYL
QAIGISNVNPLYQSAAMPYVRPVSQGTQSYSTDPSKYPVNEPLPKLTATLQASGEAEYTT
DIPHRPGELAAAFILTNQGNAKILSIDTTAAMSMEGAVAIVSAKDIPKNGNNDFMHALGG
YPELVFATDVSDYAGQAVALALADTQEHALKMAKAVTLTYQNLGKQILTIQDAIDAKSFY
DQQPNVTVGDADGAIKGSDHVVTGDISCDAQYHFTMETQTSFVIPEDDGYTVYSSSQWAW
FAQLAVASVLGIPDNKVTVMIKRVGGAYGAKSSHAALVAAACSLAASITRRPVRLHMDLE
TNMKMIGKRYPFYAKYTVGCSREGILNGIKIDIYNNSGCNDNENSMESVVHSIDNTYKCQ
NWSLNGTSCKTSTPSNIAARAPGRLPAIFIIESIMDNVARTIGMNVEKFKEANLYKKGDV
ACLSNEPLTYCNIGELWQQISISADVENRSKQISDYNKANRWRKRGISMAPLRFAIHLGG
SYTAMVSVYTGDGSVSVVHGGVEIGQGINTKVAQVTASTLGIPLSLVNVLPTNSFTCPNG
GPTAGSTTSELICLSTLNACKSLKARLDKVKEEVIASGVSDPSWLQIVQKAFSSGVDLSE
KYHLHGSLSHYNSYGVTVAEVEVDVLTGETEILRVDILYDCGQSINPEIDIGQVEGAFVM
GLGYFLTEKLVYDTNTGALLTHNTWEYKPPTTKDIPIDFRIELLKNAPNPSGVLGSKAVG
EPPLCMSSAALYAVKRAIESARHDAGEDQPFTLSAPATVEATQQACLVDSSKFVF |
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| NT seq |
3588 nt +upstreamnt +downstreamnt
atggatggtccactaaagacaatacgcttctcttttaatggaaaggaggtggaattaaat
ggtcccagttctcaagcaagcctgaatgattggataagatcacagcctggactaactggg
actaagaaaatgtgtagtgagggtggctgtgggtgttgtgtagtatctctcaccaaaact
gaccttttaaccaaaaaactactcacaatagctgttaattcttgcttgtgtcctttgtat
tccattaatggatgttcagttactacagttgaaggaattggaagctcaagaaaaggtttt
catccattacagaagaagattgccgaattgaatggtacacaatgtggttactgcacacct
ggtatggtcatgaacatgtacagtcttcttcaggaaaaccccaaacctacaaagcagtta
gttgaggacagttttgatggaaatatttgccgttgcacaggttatcgctctattttggat
gcaatgaaatcttttgcagttgattcaattgagactcaaatcactgatattgaggatgtt
aatcttattaagtgttcatcatgtcctgcaaaaaaagaatccaataattggtgtactcag
tctcgtagcactgctgatcccatcaggtatcaacctacgaaactttctgaagtatttgat
atttatcaagccaacctcagtgctagcattaaatttgttagtggaaatactgggaaagga
gtttttaaagaatcagcacagtttgatatttatattgaacttaactcagtgcaagacttg
cactttgttgatgtacaagatacacatatcagtgttggtgctggtgcttcaattaatgct
ttgattgatatactatggagtaatagggacaaatctaatagtttcaaaccattaactgat
catcttaagaaaattgccaatgttccagtgagaaatgtaggaacgtgggctggcaatttg
atgttgactcataatcatgataactttccttctgatgtgttcactataatggaagcagct
ggtgctacagttactatagctcatattggtggaactggtgaatatcccttgtgggacttt
ttgaacttggatatgaacaagaaagtaatagtatcactccagataccatattgtcactcn
nnnnnnnnaaggagctatacagagctgtctaatgagatcaaacctaatgccccacctgta
tcagctagtcctagttataggaagagccttgctcttagcttgttttataagttttatctt
caagctattggtatttctaatgttaatccactctaccagtcagcagctatgccttatgtg
cgtccagtgtcccaaggtacccagtcatacagtactgatcccagcaagtatcctgttaat
gagcctctccctaaactgactgctactttgcaggcttcaggtgaggcagagtatactact
gacattccacatcgccctggagaactggctgcagcatttatactaactaatcaaggcaat
gcaaaaattttgtcaatagacacaacagcagcaatgtcaatggaaggagctgtagcaatt
gtttctgctaaggacattccaaagaatggaaataatgatttcatgcatgccttaggtggt
taccctgaattagtatttgctactgatgtatcagattatgctggtcaagcagttgcacta
gcactggctgatactcaagaacatgcactgaaaatggccaaagctgtcactcttacttac
cagaatctagggaaacagatactcactatacaagatgctattgatgccaaatctttctac
gaccagcaacctaatgtaactgttggagatgctgatggtgctatcaaagggtcagatcat
gttgttactggtgacatttcatgtgatgcacagtatcattttacaatggagactcaaacc
tcatttgtaataccagaagatgatggttatacagtgtatagttcaagccagtgggcatgg
tttgcacagcttgctgttgctagtgtgcttggtataccagacaacaaagttacagtgatg
attaaacgagttggtggtgcttatggagctaaaagcagtcacgctgctcttgtagcagct
gcttgctctctagctgctagtatcactagaaggccagtgaggttacatatggacctggaa
actaacatgaaaatgattggaaaaaggtatcctttttatgcaaaatacactgttggttgc
agcagggaaggaatactaaatggaataaaaattgacatttataataattctggttgcaat
gataatgaaaattctatggagtctgtagttcactctattgacaatacttacaagtgtcaa
aactggtcattaaatggaacttcatgtaaaaccagtactcccagtaatattgctgcaaga
gctccaggtcgtcttcctgctatattcatcattgaatctattatggataatgttgctcgt
actattggtatgaatgttgaaaaatttaaggaagcaaacttgtacaaaaaaggagatgtc
gcatgtctctcaaatgagcctttgacatattgtaacattggtgagctctggcaacagata
agcatctctgctgatgttgaaaataggagcaagcaaatttcagattataataaagctaac
agatggaggaaaagaggaatatcaatggctcccttaagatttgctatacacttgggtgga
tcttatacagcaatggttagtgtgtatactggtgatggatctgtgtctgttgtacatggt
ggggttgaaataggacaaggaataaacacaaaggttgcacaagtcactgctagtactctt
ggtattccattgagtttagttaatgttttgcctaccaattcattcacttgtcctaatgga
ggtccaactgcaggaagcacaaccagtgaattaatttgcttgagtactttgaatgcttgt
aaatcacttaaggcaagacttgataaagtgaaagaggaagtgatagccagtggagtctca
gatccaagctggcttcaaatcgtacaaaaagctttttctagtggcgttgatctttcagag
aaatatcatttgcatggatctttaagccattataattcctatggagtgactgttgctgaa
gttgaagttgatgtattaactggagaaactgaaatattaagagttgacattttgtatgac
tgtggacaaagcatcaatcctgagattgatattggacaagtagaaggtgcctttgtcatg
gggctaggttatttcttaaccgagaaacttgtttatgacactaatactggagctttactg
acacacaacacatgggaatacaaaccacctactactaaagatattccaattgattttaga
attgagctactcaagaatgcaccaaatccttctggagtgcttggctctaaagctgttggt
gagccaccattgtgcatgagtagtgctgctttatatgctgtaaagagagctattgaaagt
gctagacatgatgctggtgaagaccaaccatttactttgtctgctccagctactgttgaa
gcaacccagcaagcctgtcttgttgattcatcaaaatttgtattttag |
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