β-氯代四碳脂肪酸的微生物降解

Microbial degradation of beta-chlorinated four-carbon aliphatic acids.

作者信息

Kohler-Staub D, Kohler H P

机构信息

Department of Soil and Environmental Sciences, University of California, Riverside 92521.

出版信息

J Bacteriol. 1989 Mar;171(3):1428-34. doi: 10.1128/jb.171.3.1428-1434.1989.

DOI:10.1128/jb.171.3.1428-1434.1989

PMID:2921240

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC209763/

Abstract

Alcaligenes sp. strain CC1 is able to grow on several alpha-chlorinated aliphatic acids (2-chlorobutyrate, 2-chloropropionate, and chloroacetate), as well as on the beta-chlorinated four-carbon aliphatic acids trans-3-chlorocrotonate, cis-3-chlorocrotonate, and 3-chlorobutyrate as sole carbon and energy sources. Dehalogenation of alpha-chlorinated acids could be measured by using resting cells grown on all the different carbon sources, whereas dehalogenation of beta-chlorinated four-carbon acids could be detected only by using resting cells grown on four-carbon compounds. A constitutive 2-haloacid dehalogenase, which did not show any activity with beta-chlorinated four-carbon acids, was detected in cell extracts. Cell extracts of crotonate-grown cells additionally contained a beta-haloacid dechlorination activity, which acted on trans-3-chlorocrotonate, cis-3-chlorocrotonate, and 3-chlorobutyrate and was strictly dependent on coenzyme A, ATP, and Mg2+. Dechlorination of beta-chlorinated four-carbon acids takes place after activation of the acids to their coenzyme A derivatives and seems to be independent of the constitutive 2-haloacid dehalogenase.

摘要

产碱菌属菌株CC1能够利用几种α-氯代脂肪酸（2-氯丁酸、2-氯丙酸和氯乙酸）以及β-氯代四碳脂肪酸反式-3-氯巴豆酸、顺式-3-氯巴豆酸和3-氯丁酸作为唯一的碳源和能源生长。α-氯代酸的脱卤作用可以通过使用在所有不同碳源上生长的静息细胞来测定，而β-氯代四碳脂肪酸的脱卤作用只能通过使用在四碳化合物上生长的静息细胞来检测。在细胞提取物中检测到一种组成型2-卤代酸脱卤酶，该酶对β-氯代四碳脂肪酸没有任何活性。巴豆酸生长细胞的细胞提取物还含有一种β-卤代酸脱氯活性，该活性作用于反式-3-氯巴豆酸、顺式-3-氯巴豆酸和3-氯丁酸，并且严格依赖于辅酶A、ATP和Mg2+。β-氯代四碳脂肪酸的脱氯作用在酸被激活为其辅酶A衍生物后发生，并且似乎与组成型2-卤代酸脱卤酶无关。

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