TOL分解代谢性质粒上途径操纵子的基因顺序以及木糖A产物对甲苯和苯甲醇的氧化作用。
Gene order of the TOL catabolic plasmid upper pathway operon and oxidation of both toluene and benzyl alcohol by the xylA product.
作者信息
Harayama S, Leppik R A, Rekik M, Mermod N, Lehrbach P R, Reineke W, Timmis K N
出版信息
J Bacteriol. 1986 Aug;167(2):455-61. doi: 10.1128/jb.167.2.455-461.1986.
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.
摘要
TOL质粒pWW0可编码用于甲苯和二甲苯氧化分解代谢的酶。上途径通过相应的醇和醛将芳烃转化为芳族羧酸,涉及三种酶:二甲苯加氧酶、苄醇脱氢酶和苯甲醛脱氢酶。这些酶的合成受到xylR产物的正调控。对携带质粒pWW0 - 161的Tn5插入突变体衍生物的细菌中上途径酶水平的测定表明,上途径酶的基因按以下顺序排列在一个操纵子中:启动子 - xylC(苯甲醛脱氢酶基因) - xylA(二甲苯加氧酶基因) - xylB(苄醇脱氢酶基因)。将上途径基因亚克隆到含λpL启动子的载体中,并分析它们在大肠杆菌K - 12中的表达,证实了这一顺序。发现有两种不同的酶可作用于苄醇,即二甲苯加氧酶和苄醇脱氢酶;它们的催化活性在苄醇转化为苯甲醛的过程中具有加和性。苄醇既是二甲苯加氧酶的产物又是其底物,这一事实表明该酶具有宽松的底物特异性。
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