D. G. Lanning scite author profile

We have engineered an industrial strain of the yeast, Candida tropicalis, for the efficient production of long-chain dicarboxylic acids, which are important raw materials for the chemical industry. By sequential disruption of the four genes encoding both isozymes of the acyl-CoA oxidase which catalyzes the first reaction in the beta-oxidation pathway, alkane and fatty acid substrates have been successfully redirected to the omega-oxidation pathway. Consequently, the conversion efficiency and chemical selectivity of their terminal oxidation to the corresponding dicarboxylic acids has been improved to 100 percent. The specific productivity of the bioconversion has been increased further by amplification of the cytochrome P450 monooxygenase and NADPH-cytochrome reductase genes encoding the rate-limiting omega-hydroxylase in the omega-oxidation pathway. The amplified strains demonstrated increased omega-hydroxylase activity and a 30% increase in productivity compared to the beta-oxidation-blocked strain in fermentations. The bioconversion is effective for the selective terminal oxidation of both saturated and unsaturated linear aliphatic substrates with chain-lengths ranging from 12 carbons to 22 carbons and also avoids the undesirable chain modifications associated with passage through the beta-oxidation pathway, such as unsaturation, hydroxylation, or chain shortening. It is now possible to efficiently produce a wide range of previously unavailable saturated and unsaturated dicarboxylic acids with a high degree of purity.

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The colonization of broiler chickens withCampylobacter jejuni: some epidemiological investigations

Humphrey

Henley

Lanning³

1993

Epidemiol. Infect.

167

108

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Between June 1990 and July 1991, broiler chickens from 49 flocks from 23 farms were examined for the carriage of Campylobacter jejuni at slaughter. Thirty-seven flocks (76%) were campylobacter-positive. Prevalence of campylobacter-colonization was not associated with any of a variety of factors such as water source and broiler house floor structure. There was also no apparent seasonal variation in carriage. Investigations on one farm indicated that dipping boots in disinfectant before workers entered broiler houses either delayed or prevented colonization with C. jejuni.

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Bacteriological and serological investigation of persistent Salmonella enteritidis infection in an integrated poultry organisation

Davies

Nicholas

McLaren

et al. 1997

Veterinary Microbiology

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Isolation of an enterovirus-like agent from the meconium of dead-in-shell chicken embryos

Spackman¹,

Re²,

Ms³

et al. 1984

Veterinary Record

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Salmonella and campylobacter contamination of broiler chicken carcasses and scald tank water: the influence of water pH

Humphrey

Lanning²

1987

Journal of Applied Bacteriology

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D. G. Lanning

Metabolic Engineering of Candida Tropicalis for the Production of Long–Chain Dicarboxylic Acids

The colonization of broiler chickens withCampylobacter jejuni: some epidemiological investigations

Bacteriological and serological investigation of persistent Salmonella enteritidis infection in an integrated poultry organisation

Isolation of an enterovirus-like agent from the meconium of dead-in-shell chicken embryos

Salmonella and campylobacter contamination of broiler chicken carcasses and scald tank water: the influence of water pH

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