Works (2)

Updated: July 5th, 2023 15:58

2006 journal article

Propane and n-butane oxidation by Pseudomonas putida GPo1

APPLIED AND ENVIRONMENTAL MICROBIOLOGY, 72(1), 950–952.

By: E. Johnson n & M. Hyman n

MeSH headings : Butanes / metabolism; Culture Media; Cytochrome P-450 CYP4A / genetics; Cytochrome P-450 CYP4A / metabolism; Octanes / metabolism; Oxidation-Reduction; Propane / metabolism; Pseudomonas putida / enzymology; Pseudomonas putida / growth & development; Pseudomonas putida / metabolism
TL;DR: Propane and n-butane inhibit methyl tertiary butyl ether oxidation by n-alkane-grown Pseudomonas putida GPo1 and appear to be oxidized by the same enzyme system used for the oxidation of n-octane. (via Semantic Scholar)
Sources: Web Of Science, NC State University Libraries, ORCID
Added: August 6, 2018

2004 journal article

Induction of methyl Tertiary butyl ether (MTBE)-oxidizing activity in Mycobacterium vaccae JOB5 by MTBE

APPLIED AND ENVIRONMENTAL MICROBIOLOGY, 70(2), 1023–1030.

By: E. Johnson n, C. Smith n, . KT O'Reilly* & M. Hyman n

MeSH headings : Biodegradation, Environmental; Carbohydrate Metabolism; Carbon / metabolism; Carboxylic Acids / metabolism; Culture Media; Gene Expression Regulation, Bacterial; Methyl Ethers / metabolism; Nontuberculous Mycobacteria / growth & development; Nontuberculous Mycobacteria / metabolism; Oxidation-Reduction
TL;DR: Experiments with acid-grown cells suggested induction of MTBE-oxidizing activity by MTBE is subject to catabolite repression, and the results of this study are discussed in terms of their potential implications towards the understanding of the role of cometabolism in MTBE and TBA biodegradation in gasoline-contaminated environments. (via Semantic Scholar)
Sources: Web Of Science, NC State University Libraries, ORCID
Added: August 6, 2018

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