Gene order of the TOL catabolic plasmid upper pathway operon and oxidation of both toluene and benzyl alcohol by the xylA product.
TLDR
Determination of upper pathway enzyme levels in bacteria carrying Tn5 insertion mutant derivatives of plasmid pWW0-161 has shown that the genes for upper pathway enzymes are organized in an operon with the following order: promoter-xylC (benzaldehyde dehydrogenase gene[s],xylA (xylene oxygenase gene)[s], andxylB (benZyl alcohol dehydrogen enzyme gene).Abstract:
TOL plasmid pWW0 specifies enzymes for the oxidative catabolism of toluene and xylenes. The upper pathway converts the aromatic hydrocarbons to aromatic carboxylic acids via corresponding alcohols and aldehydes and involves three enzymes: xylene oxygenase, benzyl alcohol dehydrogenase, and benzaldehyde dehydrogenase. The synthesis of these enzymes is positively regulated by the product of xylR. Determination of upper pathway enzyme levels in bacteria carrying Tn5 insertion mutant derivatives of plasmid pWW0-161 has shown that the genes for upper pathway enzymes are organized in an operon with the following order: promoter-xylC (benzaldehyde dehydrogenase gene[s])-xylA (xylene oxygenase gene[s])-xylB (benzyl alcohol dehydrogenase gene). Subcloning of the upper pathway genes in a lambda pL promoter-containing vector and analysis of their expression in Escherichia coli K-12 confirmed this order. Two distinct enzymes were found to attack benzyl alcohol, namely, xylene oxygenase and benzyl alcohol dehydrogenase; and their catalytic activities were additive in the conversion of benzyl alcohol to benzaldehyde. The fact that benzyl alcohol is both a product and a substrate of xylene oxygenase indicates that this enzyme has a relaxed substrate specificity.read more
Citations
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Journal ArticleDOI
Molecular mechanisms of genetic adaptation to xenobiotic compounds.
TL;DR: In this article, a range of genetic mechanisms, such as gene transfer, mutational drift, and genetic recombination and transposition, can accelerate the evolution of catabolic pathways in bacteria.
Book ChapterDOI
The TOL Plasmids: Determinants of the Catabolism of Toluene and the Xylenes
TL;DR: The chapter introduces TOL plasmids and discusses pathways for toluene and xylenes catabolisms, regulation of catabolic genes, and evolution ofCatabolic pathways.
Journal ArticleDOI
The cysteine desulfurase, IscS, has a major role in in vivo Fe-S cluster formation in Escherichia coli.
TL;DR: Data support the conclusion that, via its cysteine desulfurase activity, IscS provides the sulfur that subsequently becomes incorporated during in vivo Fe-S cluster synthesis.
Journal ArticleDOI
Analysis, cloning, and high-level expression of 2,4-dichlorophenoxyacetate monooxygenase gene tfdA of Alcaligenes eutrophus JMP134.
W R Streber,K N Timmis,M H Zenk +2 more
TL;DR: Gene tfdA, which codes for the 2,4-D monooxygenase, has now been found by mutagenesis with transposon Tn5, and a 3-kilobase fragment of pJP4 cloned in a broad-host-range vector could complement the 2.4-dichlorophenoxyacetic acid-negative phenotype of two mutants which lacked 2, 4-D Mono Oxygenase activity.
Journal ArticleDOI
Towards a Biocatalyst for (S)-Styrene Oxide Production: Characterization of the Styrene Degradation Pathway of Pseudomonas sp. Strain VLB120
TL;DR: To assess the usefulness of the enzymes for the production of enantiomerically pure styrene oxide, the enantiospecificities of the reactions involved were investigated and confirmed a probable function as a phenylacetaldehyde dehydrogenase.
References
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Journal ArticleDOI
Metabolism of toluene and xylenes by Pseudomonas (putida (arvilla) mt-2: evidence for a new function of the TOL plasmid.
M J Worsey,P A Williams +1 more
TL;DR: Pseudomonas putida (arvilla) mt-2 carries genes for the catabolism of toluene, m- xylene, and p-xylene on a transmissible plasmid, TOL, suggesting that a single set of nonspecific enzymes is responsible for the dissimilation of the breakdown products of toLUene and m- and p -xylene.
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Metabolism of toluene and xylenes by Pseudomonas (putida (arvilla) mt-2: evidence for a new function of the TOL plasmid.
M J Worsey,P A Williams +1 more