李斯特菌场分离株 GadD2 的结构变化支持乳链菌肽抗性。

Structural change in GadD2 of Listeria monocytogenes field isolates supports nisin resistance.

机构信息

Coburg University of Applied Sciences and Arts, Institute for Bioanalysis, Friedrich-Streib-Str. 2, D-96450 Coburg, Germany.

Coburg University of Applied Sciences and Arts, Institute for Bioanalysis, Friedrich-Streib-Str. 2, D-96450 Coburg, Germany; Fraunhofer Institute for Cell Therapy and Immunology, Protein Biomarker Unit, Perlickstr. 1, D-04103 Leipzig, Germany.

出版信息

Int J Food Microbiol. 2019 Sep 16;305:108240. doi: 10.1016/j.ijfoodmicro.2019.108240. Epub 2019 Jun 4.

DOI:10.1016/j.ijfoodmicro.2019.108240

PMID:31202151

Abstract

The lantibiotic nisin is used as a food additive to effectively inactivate a broad spectrum of Gram-positive bacteria such as Listeria monocytogenes. In total, 282 L. monocytogenes field isolates from German ready-to-eat food products, food-processing environments and patient samples and 39 Listeria reference strains were evaluated for their susceptibility to nisin. The MIC value was <1500 IU ml. Whole genome sequences (WGS) of four nisin susceptible (NS; growth <200 IU ml) and two nisin resistant L. monocytogenes field isolates (NR; growth >1500 IU ml) of serotype IIa were analyzed for DNA sequence variants (DSVs) in genes putatively associated with NR and its regulation. WGS of NR differed from NS in the gadD2 gene encoding for the glutamate decarboxylase system (GAD). Moreover, homology modeling predicted a protein structure of GadD2 in NR that promoted a less pH dependent GAD activity and may therefore be beneficial for nisin resistance. Likewise NR had a significant faster growth rate compared to NS in presence of nisin at pH 7. In conclusion, results contributed to ongoing debate that a genetic shift in GAD supports NR state.

摘要

乳链菌肽（nisin）被用作食品添加剂，能有效杀灭广泛的革兰氏阳性菌，如李斯特菌。本研究共评估了 282 株源自德国即食食品、食品加工环境和患者样本的李斯特菌田间分离株和 39 株李斯特菌参考株对乳链菌肽的敏感性。这些分离株的 MIC 值均<1500IU/ml。对两株血清型 IIa 的乳链菌肽敏感（NS；生长<200IU/ml）和两株乳链菌肽耐药（NR；生长>1500IU/ml）的李斯特菌田间分离株的全基因组序列（WGS）进行分析，以寻找与 NR 及其调控相关的基因中的 DNA 序列变异（DSVs）。NR 的 gadD2 基因编码谷氨酸脱羧酶系统（GAD），与 NS 不同。此外，同源建模预测 NR 中 GadD2 的蛋白结构具有较低 pH 依赖性 GAD 活性，这可能有利于乳链菌肽耐药性。同样，在 pH 7 时存在乳链菌肽的情况下，NR 的生长速度明显快于 NS。总之，研究结果有助于解决目前关于 GAD 遗传变化支持 NR 状态的争论。

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李斯特菌场分离株 GadD2 的结构变化支持乳链菌肽抗性。

Structural change in GadD2 of Listeria monocytogenes field isolates supports nisin resistance.

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