Noriyuki Doukyu scite author profile

A new screening method for 6beta-hydroperoxycholest-4-en-3-one (HCEO)-forming cholesterol oxidase was devised in this study. As the result of the screening, a novel cholesterol oxidase producer (strain DS-1) was isolated and identified as Chromobacterium sp. Extracellular cholesterol oxidase of strain DS-1 was purified from the culture supernatant. The molecular mass of the purified enzyme was 58 kDa. This enzyme showed a visible adsorption spectrum having peaks at 355 and 450 nm, like a typical flavoprotein. The enzyme oxidized cholesterol to HCEO, with the consumption of 2 mol of O2 and the formation of 1 mol of H2O2 for every 1 mol of cholesterol oxidized. The enzyme oxidized 3beta-hydroxysteroids such as cholesterol, beta-cholestanol, and pregnenolone at high rates. The Km value for cholesterol was 26 microM. The enzyme was stable at pH 3 to 11 and most active at pH 7.0-7.5, showing optimal activity at pH 7.0 and 65 degrees C. The enzyme retained about 80% of its activity after incubation for 30 min at 85 degrees C. The thermal stability of the enzyme was the highest among the cholesterol oxidases tested. Moreover, the enzyme was more stable in the presence of various organic solvents and detergents than commercially available cholesterol oxidases.

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Characteristics and biotechnological applications of microbial cholesterol oxidases

Doukyu

2009

Appl Microbiol Biotechnol

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Microbial cholesterol oxidase is an enzyme of great commercial value, widely employed by laboratories routinely devoted to the determination of cholesterol concentrations in serum, other clinical samples, and food. In addition, the enzyme has potential applications as a biocatalyst which can be used as an insecticide and for the bioconversion of a number of sterols and non-steroidal alcohols. The enzyme has several biological roles, which are implicated in the cholesterol metabolism, the bacterial pathogenesis, and the biosynthesis of macrolide antifungal antibiotics. Cholesterol oxidase has been reported from a variety of microorganisms, mostly from actinomycetes. We recently reported cholesterol oxidases from gram-negative bacteria such as Burkholderia and Chromobacterium. These enzymes possess thermal, detergent, and organic solvent tolerance. There are two forms of cholesterol oxidase, one containing a flavin adenine dinucleotide cofactor non-covalently bound to the enzyme (class I) and the other containing the cofactor covalently linked to the enzyme (class II). These two enzymes have no significant sequence homology. The phylogenetic tree analyses show that both class I and class II enzymes can be further divided into at least two groups.

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Indigo production by Escherichia coli carrying the phenol hydroxylase gene from Acinetobacter sp. strain ST-550 in a water–organic solvent two-phase system

Doukyu¹,

Toyoda²,

Aono³

2002

Appl Microbiol Biotechnol

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Acinetobacter sp. strain ST-550 produces indigo from indole in the presence of a large volume of diphenylmethane and a high level of indole. Particular proteins increased remarkably in strain ST-550 grown in the two-phase culture system for indigo production. One of the proteins showed a N-terminal amino acid sequence that was identical to that of the largest subunit of phenol hydroxylase (MopN) from A. calcoaceticus NCBI8250. The indigo-producing activity was strongly induced when ST-550 was grown with phenol as a sole carbon source. Genes coding for the multicomponent phenol hydroxylase were cloned, based on the homology with mopKLMOP from A. calcoaceticus NCBI8250. Escherichia coli carrying the genes produced indigo from indole. E. coli JA300 and its cyclohexane-resistant mutant, OST3410, carrying the hydroxylase genes and the NADH regeneration system were grown in the two-phase culture system for indigo production. The OST3410 recombinant produced 52 microg indigo ml(-1) of medium in the presence of diphenylmethane. This productivity was 4.3-fold higher than that of the JA300 recombinant.

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Discovery of glpC , an Organic Solvent Tolerance-Related Gene in Escherichia coli , Using Gene Expression Profiles from DNA Microarrays

Shimizu

Hayashi

Kako

et al. 2005

Appl Environ Microbiol

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Noriyuki Doukyu

Organic solvent-tolerant enzymes

Purification and characterization of Chromobacterium sp. DS-1 cholesterol oxidase with thermal, organic solvent, and detergent tolerance

Characteristics and biotechnological applications of microbial cholesterol oxidases

Indigo production by Escherichia coli carrying the phenol hydroxylase gene from Acinetobacter sp. strain ST-550 in a water–organic solvent two-phase system

Discovery of glpC , an Organic Solvent Tolerance-Related Gene in Escherichia coli , Using Gene Expression Profiles from DNA Microarrays

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