Literature summary for 1.1.3.13 extracted from

Ozimek, P.; Veenhuis, M.; van der Klei, I.J.
Alcohol oxidase: a complex peroxisomal, oligomeric flavoprotein (2005), FEMS Yeast Res., 5, 975-983.

Search for more literature for 1.1.3.13

Activating Compound

Activating Compound	Comment	Organism	Structure
additional information	induced by carbon starvation and during later stages of infection, deletion results in reduced pathogenicity	Fulvia fulva
additional information	induced under conditions of penicillin production	Penicillium chrysogenum

Protein Variants

Protein Variants	Comment	Organism
additional information	in mutants defective in matrix protein import, cytosolic enzyme crystalloids are formed, mutants that contain enzymatically active enzyme in the cytosol are impaired in growth on methanol as a sole source of carbon and energy	Ogataea angusta

Localization

Localization	Comment	Organism	GeneOntology No.	Textmining
peroxisome	-	Penicillium chrysogenum	5777	-
peroxisome	-	Komagataella pastoris	5777	-
peroxisome	-	[Candida] boidinii	5777	-
peroxisome	-	Ogataea pini	5777	-
peroxisome	-	Ogataea methanolica	5777	-
peroxisome	-	Fulvia fulva	5777	-
peroxisome	is impaired in peroxisome biogenesis at 43°C but not at 37°C, the enzyme shows unusual oligomerisation in peroxisomes instead of in the cytosol, overiew	Ogataea angusta	5777	-

Molecular Weight [Da]

Molecular Weight [Da]	Molecular Weight Maximum [Da]	Comment	Organism
600000	-	about	Penicillium chrysogenum
600000	-	about	Komagataella pastoris
600000	-	about	[Candida] boidinii
600000	-	about	Ogataea angusta
600000	-	about	Ogataea pini
600000	-	about	Ogataea methanolica
600000	-	about	Fulvia fulva

Natural Substrates/ Products (Substrates)

Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.	Reac.
methanol + O2	Penicillium chrysogenum	-	formaldehyde + H2O2	-	?
methanol + O2	Komagataella pastoris	-	formaldehyde + H2O2	-	?
methanol + O2	[Candida] boidinii	-	formaldehyde + H2O2	-	?
methanol + O2	Ogataea pini	-	formaldehyde + H2O2	-	?
methanol + O2	Ogataea methanolica	-	formaldehyde + H2O2	-	?
methanol + O2	Fulvia fulva	-	formaldehyde + H2O2	-	?
methanol + O2	Ogataea angusta	enzyme expression is tightly regulated, three regulatory sequences are involved	formaldehyde + H2O2	-	?
additional information	Komagataella pastoris	the enzyme is the key enzyme of methanol metabolism in methylotrophic yeast species, overview	?	-	?
additional information	[Candida] boidinii	the enzyme is the key enzyme of methanol metabolism in methylotrophic yeast species, overview	?	-	?
additional information	Ogataea angusta	the enzyme is the key enzyme of methanol metabolism in methylotrophic yeast species, overview	?	-	?
additional information	Ogataea pini	the enzyme is the key enzyme of methanol metabolism in methylotrophic yeast species, overview	?	-	?
additional information	Ogataea methanolica	the enzyme is the key enzyme of methanol metabolism in methylotrophic yeast species, overview	?	-	?

Organism

Organism	UniProt	Comment	Textmining
Fulvia fulva	-	gene AOX1	-
Komagataella pastoris	-	genes AOX1 and AOX2	-
Ogataea angusta	-	i.e. Pichia angusta, gene MOX	-
Ogataea methanolica	-	genes AUG1 or MOD1 and AUG2 or MOD2	-
Ogataea pini	-	gene AOX1	-
Penicillium chrysogenum	-	gene AOX	-
[Candida] boidinii	-	gene AOD1	-

Source Tissue

Source Tissue	Comment	Organism	Textmining
additional information	no enzyme expression when cells grow on glycerol, schematic overview of the biosynthetic pathway of the enzyme	Komagataella pastoris	-
additional information	schematic overview of the biosynthetic pathway of the enzyme	Penicillium chrysogenum	-
additional information	schematic overview of the biosynthetic pathway of the enzyme	[Candida] boidinii	-
additional information	schematic overview of the biosynthetic pathway of the enzyme	Ogataea angusta	-
additional information	schematic overview of the biosynthetic pathway of the enzyme	Ogataea pini	-
additional information	schematic overview of the biosynthetic pathway of the enzyme	Ogataea methanolica	-
additional information	schematic overview of the biosynthetic pathway of the enzyme	Fulvia fulva	-

Substrates and Products (Substrate)

Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.	Reac.
methanol + O2	-	Penicillium chrysogenum	formaldehyde + H2O2	-	?
methanol + O2	-	Komagataella pastoris	formaldehyde + H2O2	-	?
methanol + O2	-	[Candida] boidinii	formaldehyde + H2O2	-	?
methanol + O2	-	Ogataea angusta	formaldehyde + H2O2	-	?
methanol + O2	-	Ogataea pini	formaldehyde + H2O2	-	?
methanol + O2	-	Ogataea methanolica	formaldehyde + H2O2	-	?
methanol + O2	-	Fulvia fulva	formaldehyde + H2O2	-	?
methanol + O2	enzyme expression is tightly regulated, three regulatory sequences are involved	Ogataea angusta	formaldehyde + H2O2	-	?
additional information	the enzyme is the key enzyme of methanol metabolism in methylotrophic yeast species, overview	Komagataella pastoris	?	-	?
additional information	the enzyme is the key enzyme of methanol metabolism in methylotrophic yeast species, overview	[Candida] boidinii	?	-	?
additional information	the enzyme is the key enzyme of methanol metabolism in methylotrophic yeast species, overview	Ogataea angusta	?	-	?
additional information	the enzyme is the key enzyme of methanol metabolism in methylotrophic yeast species, overview	Ogataea pini	?	-	?
additional information	the enzyme is the key enzyme of methanol metabolism in methylotrophic yeast species, overview	Ogataea methanolica	?	-	?

Subunits

Subunits	Comment	Organism
octamer	-	Penicillium chrysogenum
octamer	-	Komagataella pastoris
octamer	-	[Candida] boidinii
octamer	-	Ogataea pini
octamer	-	Ogataea methanolica
octamer	-	Fulvia fulva
octamer	structure analysis and overview	Ogataea angusta

Synonyms

Synonyms	Comment	Organism
Mod1p	-	Ogataea methanolica
Mod2p	-	Ogataea methanolica

Cofactor

Cofactor	Comment	Organism	Structure
FAD	one prosthetic group per subunit, a flavoprotein	Penicillium chrysogenum
FAD	one prosthetic group per subunit, a flavoprotein	Komagataella pastoris
FAD	one prosthetic group per subunit, a flavoprotein	[Candida] boidinii
FAD	one prosthetic group per subunit, a flavoprotein	Ogataea pini
FAD	one prosthetic group per subunit, a flavoprotein	Fulvia fulva
FAD	one prosthetic group per subunit, a flavoprotein, binding structure, fine tuning of the enzyme activity may be regulated via modifications of the cofactor FAD, one of these mechanisms involves the autoconversion of the naturally occurring FAD moiety to the modified form, i.e. mFAD or a-FAD	Ogataea angusta
FAD	one prosthetic group per subunit, a flavoprotein, fine tuning of the enzyme activity may be regulated via modifications of the cofactor FAD, one of these mechanisms involves the autoconversion of the naturally occurring FAD moiety to the modified form, i.e. mFAD or a-FAD	Ogataea methanolica

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Release 2023.1 (January 2023)