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确定多氯联苯降解特异性的联苯双加氧酶序列的鉴定与修饰。

Identification and modification of biphenyl dioxygenase sequences that determine the specificity of polychlorinated biphenyl degradation.

作者信息

Mondello F J, Turcich M P, Lobos J H, Erickson B D

机构信息

GE Research and Development Center, Schenectady, New York 12301, USA.

出版信息

Appl Environ Microbiol. 1997 Aug;63(8):3096-103. doi: 10.1128/aem.63.8.3096-3103.1997.

DOI:10.1128/aem.63.8.3096-3103.1997
PMID:9251195
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC168606/
Abstract

The polychlorinated biphenyl (PCB) congener specificities and partial BphA sequences of biphenyl dioxygenase were determined for a set of PCB-degrading bacteria. The strains examined were categorized into two groups based on their ability to degrade 17 PCB congeners. Strains that degraded a broad range of PCBs but had relatively weak activity against di-para-substituted PCBs were designated as having an LB400-type specificity. Strains designated as having a KF707-type specificity degraded a much narrower range of PCBs but had strong activity against certain di-para-substituted congeners. BphA protein sequence comparisons between these two types of strains identified four regions (designated I, II, III, and IV) in which specific sequences were consistently associated with either broad or narrow PCB substrate specificity. The dramatic differences in substrate specificity between LB400 and KF707 appear to result primarily from a combination of mutations in regions III and IV. Altering these regions in the LB400 BphA subunit to correspond to those in the KF707 sequence produced a narrow substrate specificity very similar to that of KF707. Some individual mutations within region III alone were found to improve PCB degradative activity, especially for di-para-substituted congeners. However, the greatest improvements in activity resulted from multiple amino acid modifications in region III, suggesting that the effects of these mutations are cooperative. These results demonstrate the ability to significantly improve PCB oxidative activity through sequence modifications of biphenyl dioxygenase.

摘要

针对一组多氯联苯(PCB)降解细菌,测定了联苯双加氧酶的多氯联苯同系物特异性和部分BphA序列。根据这些菌株降解17种PCB同系物的能力,将所检测的菌株分为两组。能够降解多种PCB但对二对二取代PCB活性相对较弱的菌株被指定为具有LB400型特异性。被指定为具有KF707型特异性的菌株降解的PCB范围要窄得多,但对某些二对二取代同系物具有较强活性。这两种类型菌株之间的BphA蛋白序列比较确定了四个区域(分别命名为I、II、III和IV),其中特定序列始终与宽泛或狭窄的PCB底物特异性相关。LB400和KF707之间底物特异性的显著差异似乎主要是由区域III和IV中的突变组合导致的。将LB400 BphA亚基中的这些区域改变为与KF707序列中的区域相对应,产生了与KF707非常相似的狭窄底物特异性。仅在区域III内的一些个别突变被发现可提高PCB降解活性,尤其是对于二对二取代同系物。然而,活性的最大提高来自区域III中的多个氨基酸修饰,这表明这些突变的作用是协同的。这些结果证明了通过对联苯双加氧酶进行序列修饰来显著提高PCB氧化活性的能力。

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