在嗜线虫致病杆菌中通过鞭毛型 III 途径输出 Xenocin。

Xenocin export by the flagellar type III pathway in Xenorhabdus nematophila.

机构信息

International Centre for Genetic Engineering and Biotechnology, Aruna Asaf Ali Marg, New Delhi, India.

出版信息

J Bacteriol. 2013 Apr;195(7):1400-10. doi: 10.1128/JB.01532-12. Epub 2013 Jan 18.

DOI:10.1128/JB.01532-12

PMID:23335409

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3624530/

Abstract

The xenocin operon of Xenorhabdus nematophila consists of xciA and ximB genes encoding a 64-kDa xenocin and 42-kDa immunity protein to kill competing microbes in the insect larva. The catalytic domain of xenocin has RNase activity and is responsible for its cytotoxicity. Under SOS conditions, xenocin is produced with immunity protein as a complex. Here, we show that xenocin and immunity protein complex are exported through the flagellar type III system of X. nematophila. Secretion of xenocin complex was abolished in an flhA strain but not in an fliC strain. The xenocin operon is not linked to the flagellar operon transcriptionally. The immunity protein is produced alone from a second, constitutive promoter and is targeted to the periplasm in a flagellum-independent manner. For stable expression of xenocin, coexpression of immunity protein was necessary. To examine the role of immunity protein in xenocin export, an enzymatically inactive protein was produced by site-directed mutagenesis in the active site of the catalytic domain. Toxicity was abolished in D535A and H538A variants of xenocin, which were expressed alone without an immunity domain and secreted in the culture supernatant through flagellar export. Secretion of xenocin through the flagellar pathway has important implications in the evolutionary success of X. nematophila.

摘要

寡霉素操纵子由编码 64kDa 寡霉素和 42kDa 免疫蛋白的 xciA 和 ximB 基因组成，可杀死昆虫幼虫中的竞争微生物。寡霉素的催化结构域具有 RNase 活性，负责其细胞毒性。在 SOS 条件下，寡霉素与免疫蛋白作为复合物产生。在这里，我们表明寡霉素和免疫蛋白复合物通过线虫属 Xenorhabdus 的鞭毛 III 型系统输出。在 flhA 菌株中，寡霉素复合物的分泌被消除，但在 fliC 菌株中没有。寡霉素操纵子在转录上与鞭毛操纵子无关。免疫蛋白单独从第二个组成型启动子产生，并以与鞭毛无关的方式靶向周质。为了稳定表达寡霉素，必须共表达免疫蛋白。为了研究免疫蛋白在寡霉素输出中的作用，通过定点突变在催化结构域的活性位点产生了一种酶失活的蛋白。在单独表达而没有免疫结构域的情况下，D535A 和 H538A 变体的毒性被消除，并且通过鞭毛出口分泌到培养上清液中。通过鞭毛途径分泌寡霉素对线虫属 Xenorhabdus 的进化成功具有重要意义。

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