Showing Protein Aldehyde oxidase 1 (BMDBP00677)

IdentificationBiological propertiesGene propertiesProtein propertiesExternal linksReferencesXMLShow 19 metabolites
Identification
BMDB Protein ID BMDBP00677
Secondary Accession Numbers
  • BMDBP03116
Name Aldehyde oxidase 1
Synonyms Not Available
Gene Name AOX1
Protein Type Enzyme
Biological Properties
General Function Nucleotide transport and metabolism
Specific Function Oxidase with broad substrate specificity, oxidizing aromatic azaheterocycles, such as N1-methylnicotinamide, N-methylphthalazinium and phthalazine, as well as aldehydes, such as benzaldehyde, retinal, pyridoxal, and vanillin. Plays a key role in the metabolism of xenobiotics and drugs containing aromatic azaheterocyclic substituents. Is probably involved in the regulation of reactive oxygen species homeostasis. May be a prominent source of superoxide generation via the one-electron reduction of molecular oxygen. Also may catalyze nitric oxide (NO) production via the reduction of nitrite to NO with NADH or aldehyde as electron donor. May play a role in adipogenesis.
Pathways Not Available
Reactions
(S)-Methylmalonic acid semialdehyde + Water + Oxygen → Methylmalonic acid + Hydrogen peroxide details
5-Hydroxyindoleacetaldehyde + Oxygen + Water → 5-Hydroxyindoleacetic acid + Hydrogen peroxide details
Pyridoxal + Oxygen + Water → 4-Pyridoxic acid + Hydrogen peroxide details
1-Methylnicotinamide + Oxygen + Water → N1-Methyl-2-pyridone-5-carboxamide + Hydrogen peroxide details
1-Methylnicotinamide + Water + Oxygen → N1-Methyl-4-pyridone-3-carboxamide + Hydrogen peroxide details
GO Classification Not Available
Cellular Location Not Available
Gene Properties
Chromosome Location 2
Locus Not Available
SNPs AOX1
Gene Sequence 
>4020 bp
ATGGAAGGGGGCTCCGAGCTGCTCTTCTACGTGAACGGCCGCAAGGTGACAGAAAAAAAT
GTTGATCCTGAAACAATGCTATTGCCATATCTGAGGAAAAAGCTCCGACTCACAGGAACT
AAATATGGCTGTGGAGGGGGAGGCTGTGGTGCCTGCACAGTGATGATATCACGATATAAC
CCCATTACCAAGAAGATAAGACATTATCCAGCCAACGCCTGTCTGACGCCCATCTGTTCT
CTGTATGGGGCTGCCGTCACCACAGTAGAAGGCATAGGAAGCACCAAGACCAGGATTCAT
CCTGTTCAGGAGAGGATTGCCAAGTGTCACGGCACGCAGTGTGGCTTCTGCACCCCCGGG
ATGGTGATGTCCCTGTACACGCTGCTGAGGAACCATCCGGAGCCCACCCTGACTCAGCTA
AATGATGCTCTTGGTGGTAACCTGTGTCGTTGCACTGGATACAGGCCCATAATCAATGCA
TGCAAGACTTTCTGTAAAACTTCTGGCTGCTGTCAAAGTAAAGAAAATGGGGTTTGCTGT
TTGGATCAAGGAATGAATGGATTACCAGAATTTGAGGAAGGAAATGAGACAAGTCTGAAA
CTCTTCTCAGAAGAGGAGTTTCTGCCATTGGATCCAACTCAAGAGCTGATATTTCCTCCC
GAGCTAATGACAATGGCTGAGAAAAAAACACAGAAGACCAGGATTTTTGGTAGTGATAGA
ATGACCTGGATTTCCCCAGTGACCCTGAAGGAACTTCTAGAAGCCAAAGTCAAGTATCCC
CAGGCCCCTGTTGTCATGGGGAACACCTCTGTGGGCCCTGACATGAAATTTAAAGGCATC
TTTCACCCAGTTATAATTTCTCCTGATAGAATTGAAGAACTGAGTGTTGTAAACTATACA
GATAACGGGCTGACCTTAGGTGCTGCTGTCAGCCTCGCTGAGGTGAAAGACATCCTGGCT
AATGTGACCCGGAAACTCCCTGAGGAGAAGACACAGATGTACCATGCTCTCCTGAAACAT
TTGGAAACTCTGGCTGGGCCGCAGATCAGGAATATGGCTTCTTTAGGGGGCCACATAGTG
AGCAGGCATCCAGATTCAGATCTGAACCCTCTCCTGGCTGTGGGCAACTGTACCCTCAAC
CTGCTGTCAAAAGAAGGAAGACGACAGATTCCTTTAAATGAGCAGTTTCTCAGAAAGTGC
CCAAGTGCCGATCTTAAGCCTGAAGAAATCTTGATCTCAGTGAACATCCCCTATTCAAGG
AAGTGGGAGTTTGTGTCAGCCTTCCGACAAGCCCAGCGGCAACAGAATGCGCTTGCAATA
GTTAATTCGGGAATGAGAGTGTGTTTTGGAAAAGGAGATGGCATCATCAGAGAGTTATCC
ATTGCATACGGAGGCGTTGGTCCAACCACCATCCTTGCAAATAATTCCTGCCAGAAACTC
ATTGGAAGGCCCTGGAATGAAGAGATGCTGGATGCAGCTTGCAGGCTGATTCTGGATGAA
GTCTCCCTCCCAGGCTCAGCCCCAGGTGGGAGGGTGGAGTTCAAGAGGACCCTCATTGTC
AGCTTCCTGTTCAAGTTCTACCTGGAAGTGTCACAGATTTTGAAGGGGATGGACCTTGTT
CACTATCCTAGCCTTGCAAGCAAATATGAGAGTGCTTTAGAAGATCTTCATTCCAGACAT
TACTGGAGTACATTAAAGTACCAGAATGCAGACCTAAAGCAGCTTTCTCAAGACCCAATT
GGCCATCCCATCATGCACCTGTCTGGTATTAAGCATGCCACGGGCGAAGCCATCTACTGT
GACGACATGCCTGTGGTGGACCGGGAACTGTTCTTGACTTTTGTAACAAGTTCAAGAGCT
CATGCTAAGATTGTGTCTATCGATGTCTCTGCAGCTCTCAGCCTGCCTGGGGTGGTAGAC
ATCCTGACTGGGGAACATCTTCCAGGCATCAACACCACCTTTGGCTTTTTAACTGACGCT
GATCAACTTCTGTCAACAGATGAGGTGTCTTGTGTGGGTCAGCTTGTCTGCGCCGTGATA
GCCGATTCCGAGGTCCAGGCAAGGCGAGCTGCTCAGCAAGTGAAGATTGTCTACCAAGAT
TTGGAGCCAGTGATCCTAACCATTGAGGAAGCTATACAAAACAAGTCCTTCTTTGAGCCA
GAGAGGAAACTGGAGTATGGAAATGTGGATGAAGCATTTAAAATGGTGGATCAAATTCTT
GAAGGTGAAATACACATGGGAGGTCAAGAACACTTTTATATGGAAACCCAGAGCATGCTG
GTTGTTCCCAAAGGAGAAGATCGAGAAATCGATGTCTACGTGTCTGCTCAGTTTCCTAAA
TACATACAGGACATAACTGCTTCAGTCTTGAAGGTCTCAGCTAACAAAGTCATGTGTCAC
GTAAAGCGTGTTGGTGGAGCCTTTGGGGGAAAGGTGACAAAAACTGGCGTCCTGGCAGCC
ATCACCGCATTTGCTGCAAACAAGCATGGTCGTCCAGTCCGCTGCATTCTGGAACGAGGA
GAAGACATATTAATAACTGGAGGCCGCCACCCTTACCTTGGAAAGTATAAAGCTGGATTC
ATGAATGATGGCAGAATCTTGGCCCTGGATATGGAGCATTATAACAATGCAGGTGCCTTC
CTGGATGAGTCATTATTTGTAATAGAGATGGGACTTCTGAAACTGGAAAATGCCTACAAG
TTTCCCAACCTGCGCTGCCGGGGGTGGGCGTGCAGAACCAACCTTCCATCCAACACAGCT
TTGCGAGGGTTTGGCTTTCCCCAGGCAGGGCTGATCACCGAAGCCTGTATCACAGAAGTG
GCAGCCAAATGTGGGTTGCCCCCTGAGAAGGTCCGAATGATAAACATGTATAAGGAAATT
GATCAAACACCCTACAAACAGGAGATTAATACCAAGAACCTGACCCAGTGTTGGAAAGAA
TGCATGGCCACGTCTTCCTACACCCTAAGGAAAGCAGCGGTGGAGAAATTCAACTCGGAG
AATTACTGGAAGAAGAAGGGGCTGGCAATGGTCCCCCTGAAGTATCCTATTGGCCTTGGA
TCAGTTGCTGCTGGTCAGGCTGCTGCCCTGGTTCACATTTATCTGGATGGGTCTGTGCTG
GTGACTCACGGTGGAATTGAAATGGGGCAGGGGGTCCACACTAAAATGATTCAGGTGGTG
AGTCGTGAGTTAAGGATGCCACTGTCCAGTATCCACCTCCGGGGAACAAGCACAGAAACC
ATCCCTAATACAAATCCCTCTGGAGGTTCCGTAGTGGCTGATCTCAACGGGTTGGCAGTA
AAGGATGCTTGTCAGACTCTTCTGAAACGCCTTAAACCCATCATCAGCAAGAATCCCAAA
GGCACTTGGAAAGATTGGGCACAGGCTGCCTTTAATGAAAGCATTAGTCTCTCAGCTACT
GGATACTTCAGGGGTTATGAGTCGAACATAAACTGGGAGACAGGCGAAGGCCACCCTTTC
GAATACTTTGTTTATGGAGCAGCCTGTTCCGAGGTTGAGATAGACTGCCTGACAGGTGCT
CATAAGAACATCAGAACAGACATTGTCATGGATGTTGGCTACAGTATAAATCCAGCCCTT
GACGTAGGCCAGATTGAAGGTGCATTTATTCAAGGCATGGGACTTTATACAATAGAGGAA
CTGAATTATTCTCCTCAAGGTGTCCTGTACACCCGGGGCCCGAACCAGTATAAAATCCCT
GCCATCTGTGACATCCCCATGGAGCTGCACATTTCTTTTTTGCCTCCCTCTGAAAACTCG
AATACCCTGTATTCGTCTAAGGGTCTGGGAGAGTCTGGGATATTCCTGGGGTGCTCAGTG
TTTTTCGCCATCCACGATGCAATAAGGGCAGCACGACAGGAGAGAGGCCTGCCTGGACCA
CTGAGGCTCAACAGCCCACTGACTCCAGAGAAGATTAGAATGGCCTGTGAAGACAAGTTC
ACAAAAATGATTCCAAGAGATGAACCTGGATCGTATGTTCCTTGGAGTGTACCCATATGA
Protein Properties
Number of Residues 1339
Molecular Weight 147611.0
Theoretical pI 7.29
Pfam Domain Function Not Available
Signals
  • None
Transmembrane Regions Not Available
Protein Sequence 
>Aldehyde oxidase
MEGGSELLFYVNGRKVTEKNVDPETMLLPYLRKKLRLTGTKYGCGGGGCGACTVMISRYN
PITKKIRHYPANACLTPICSLYGAAVTTVEGIGSTKTRIHPVQERIAKCHGTQCGFCTPG
MVMSLYTLLRNHPEPTLTQLNDALGGNLCRCTGYRPIINACKTFCKTSGCCQSKENGVCC
LDQGMNGLPEFEEGNETSLKLFSEEEFLPLDPTQELIFPPELMTMAEKKTQKTRIFGSDR
MTWISPVTLKELLEAKVKYPQAPVVMGNTSVGPDMKFKGIFHPVIISPDRIEELSVVNYT
DNGLTLGAAVSLAEVKDILANVTRKLPEEKTQMYHALLKHLETLAGPQIRNMASLGGHIV
SRHPDSDLNPLLAVGNCTLNLLSKEGRRQIPLNEQFLRKCPSADLKPEEILISVNIPYSR
KWEFVSAFRQAQRQQNALAIVNSGMRVCFGKGDGIIRELSIAYGGVGPTTILANNSCQKL
IGRPWNEEMLDAACRLILDEVSLPGSAPGGRVEFKRTLIVSFLFKFYLEVSQILKGMDLV
HYPSLASKYESALEDLHSRHYWSTLKYQNADLKQLSQDPIGHPIMHLSGIKHATGEAIYC
DDMPVVDRELFLTFVTSSRAHAKIVSIDVSAALSLPGVVDILTGEHLPGINTTFGFLTDA
DQLLSTDEVSCVGQLVCAVIADSEVQARRAAQQVKIVYQDLEPVILTIEEAIQNKSFFEP
ERKLEYGNVDEAFKMVDQILEGEIHMGGQEHFYMETQSMLVVPKGEDREIDVYVSAQFPK
YIQDITASVLKVSANKVMCHVKRVGGAFGGKVTKTGVLAAITAFAANKHGRPVRCILERG
EDILITGGRHPYLGKYKAGFMNDGRILALDMEHYNNAGAFLDESLFVIEMGLLKLENAYK
FPNLRCRGWACRTNLPSNTALRGFGFPQAGLITEACITEVAAKCGLPPEKVRMINMYKEI
DQTPYKQEINTKNLTQCWKECMATSSYTLRKAAVEKFNSENYWKKKGLAMVPLKYPIGLG
SVAAGQAAALVHIYLDGSVLVTHGGIEMGQGVHTKMIQVVSRELRMPLSSIHLRGTSTET
IPNTNPSGGSVVADLNGLAVKDACQTLLKRLKPIISKNPKGTWKDWAQAAFNESISLSAT
GYFRGYESNINWETGEGHPFEYFVYGAACSEVEIDCLTGAHKNIRTDIVMDVGYSINPAL
DVGQIEGAFIQGMGLYTIEELNYSPQGVLYTRGPNQYKIPAICDIPMELHISFLPPSENS
NTLYSSKGLGESGIFLGCSVFFAIHDAIRAARQERGLPGPLRLNSPLTPEKIRMACEDKF
TKMIPRDEPGSYVPWSVPI
GenBank ID Protein CAA60701.1
UniProtKB/Swiss-Prot ID P48034
UniProtKB/Swiss-Prot Entry Name AOXA_BOVIN
PDB IDs Not Available
GenBank Gene ID X87251
GeneCard ID AOX1
GenAtlas ID Not Available
HGNC ID Not Available
References
General References Not Available