间位裂解途径的不同分支在苯甲酸及取代苯甲酸降解中的作用。
Roles of the divergent branches of the meta-cleavage pathway in the degradation of benzoate and substituted benzoates.
作者信息
Harayama S, Mermod N, Rekik M, Lehrbach P R, Timmis K N
出版信息
J Bacteriol. 1987 Feb;169(2):558-64. doi: 10.1128/jb.169.2.558-564.1987.
Abstract
The TOL plasmid-specified meta-cleavage pathway for the oxidative catabolism of benzoate and toluates branches at the ring cleavage products of catechols and reconverges later at 2-oxopent-4-enoate or its corresponding substituted derivatives. The hydrolytic branch of the pathway involves the direct formation of 2-oxopent-4-enoate or its derivatives, whereas the oxalocrotonate branch involves three enzymatic steps effected by a dehydrogenase, an isomerase, and a decarboxylase, which produce the same compounds. Evidence is presented which shows that benzoate and p-toluate can, under certain circumstances, be catabolized by the hydrolytic branch. However, in a fully functional pathway, only m-toluate is dissimilated via this branch, and benzoate and p-toluate are catabolized almost exclusively by the oxalocrotonate branch. The biochemical basis of this selectivity was found to reside in the high affinity of the dehydrogenase for ring fission products derived from benzoate and p-toluate and its inability to attack the ring fission product derived from m-toluate. Although isomerization of 4-oxalocrotonate occurs spontaneously in vitro, enzymatic isomerization was found to be essential for effective functioning of this branch of the pathway in vivo.
摘要
TOL质粒指定的苯甲酸酯和甲苯酸酯氧化分解代谢的间位裂解途径在儿茶酚的环裂解产物处分支,并在2-氧代戊-4-烯酸酯或其相应的取代衍生物处重新汇合。该途径的水解分支涉及2-氧代戊-4-烯酸酯或其衍生物的直接形成,而草酰巴豆酸酯分支涉及由脱氢酶、异构酶和脱羧酶催化的三个酶促步骤,这些步骤产生相同的化合物。有证据表明,在某些情况下,苯甲酸酯和对甲苯酸酯可通过水解分支进行分解代谢。然而,在一个功能完整的途径中,只有间甲苯酸酯通过该分支进行异化作用,苯甲酸酯和对甲苯酸酯几乎完全通过草酰巴豆酸酯分支进行分解代谢。发现这种选择性的生化基础在于脱氢酶对苯甲酸酯和对甲苯酸酯衍生的环裂变产物具有高亲和力,而无法作用于间甲苯酸酯衍生的环裂变产物。尽管4-草酰巴豆酸酯的异构化在体外可自发发生,但发现酶促异构化对于该途径在体内的这一分支的有效运作至关重要。
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