Pseudomonas stutzeri KC carries the pdt genes for carbon tetrachloride degradation on an integrative and conjugative element.

Pub Date : 2024-04-16 DOI:10.1159/000538783
Holly L. Sewell, C. Criddle, Sung-Geun Woo, Sooyeol Kim, Jochen A Müller, Anne-Kristin Kaster
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Abstract

Pseudomonas stutzeri KC can rapidly degrade carbon tetrachloride (CCl4) to CO2 by a fortuitous reaction with pyridine-2,6-bis(thiocarboxylic acid), a metal chelator encoded by pdt genes. These genes were first identified after a spontaneous mutant, strain CTN1, lost the ability to degrade CCl4. Here we report the complete genome of strain KC and show that these pdt genes are located on an integrative and conjugative element (ICE), designated ICEPsstKC. Comparative genome analyses revealed homologues of pdt genes in genomes of members of other gammaproteobacterial orders. Discrepancies between the tree topologies of the deduced pdt gene products and the host phylogeny based on 16S rRNA provided evidence for horizontal gene transfer (HGT) in several sequenced strains of these orders. In addition to ICEPsstKC, HGT may be have been facilitated by other mobile genetic elements, as indicated by the location of the pdt gene cluster adjacent to fragments of other ICEs and prophages in several genome assemblies. We could here show that the majority of cells from the culture collection DSMZ had lost the ICE. The presence of the pdt gene cluster on mobile genetic elements has important implications for the bioremediation of CCl4 for bioremediation of CCl4 and needs consideration when selecting suitable strains.
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KC stutzeri 假单胞菌在整合和共轭元件上携带有降解四氯化碳的 pdt 基因。
通过与由 pdt 基因编码的金属螯合剂吡啶-2,6-双(硫代烃羧酸)发生偶然反应,假单胞菌 KC 可将四氯化碳(CCl4)迅速降解为二氧化碳。这些基因是在自发突变体 CTN1 菌株失去降解 CCl4 的能力后首次被发现的。在此,我们报告了菌株 KC 的完整基因组,并表明这些 pdt 基因位于一个整合与共轭元件(ICE)上,该元件被命名为 ICEPsstKC。基因组比较分析表明,ptt 基因在其他伽马蛋白菌目成员的基因组中有同源物。推导出的 pdt 基因产物的树状拓扑结构与基于 16S rRNA 的宿主系统发育之间的差异,为这些菌目中几个测序菌株的横向基因转移(HGT)提供了证据。除了 ICEPsstKC 外,HGT 还可能是由其他移动遗传因子促成的,这一点从 pdt 基因簇在多个基因组组装中与其他 ICEs 和噬菌体片段相邻的位置可以看出。在这里,我们可以证明,来自培养物集合 DSMZ 的大多数细胞都失去了 ICE。pdt 基因簇出现在移动遗传因子上对 CCl4 的生物修复具有重要意义,在选择合适的菌株时需要加以考虑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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