Mingyuan Tang, Yao Lei, Kehan Chen, Mingming Ding, Qian Ou, Jing Tang, Yunwen Zhang, Tian Tang, Chuan Wang
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We knocked out two genes related to the longitudinal crosslinking of peptidoglycan, <i>dal</i> and <i>dat</i>, and supplemented the knocked-out <i>dal</i> gene through plasmid expression to obtain a stably inherited recombinant strain LMΔ<i>dd</i>::pCW633. The structure, particle size, and main protein components of MVs secreted by this recombinant strain were consistent with those secreted from the wild strain, but the yield of MVs was considerably increased (<i>p</i> < 0.05). Furthermore, <i>Listeria ivanovii</i> (LI) was found to secrete MVs that differed in the composition of the main proteins compared with those of LM MVs. The abovementioned method was also feasible for promoting the secretion of MVs from the attenuated LM strain and LI wild-type and attenuated strains. 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引用次数: 0
摘要
单核细胞增生李斯特菌(LM)是一种革兰氏阳性(G+)细菌,能分泌纳米级膜囊(MVs)。LM MVs 由多种细菌成分组成,可能具有作为抗原或给药载体的潜力;然而,LM MVs 的低产量限制了相关研究。G+细菌MV从细菌质膜上萌发,必须穿过厚厚的交联肽聚糖层才能释放。在此,我们的目标是通过降低肽聚糖的交联程度来增加中空菌丝的释放。我们敲除了与肽聚糖纵向交联有关的两个基因 dal 和 dat,并通过质粒表达补充了敲除的 dal 基因,获得了稳定遗传的重组菌株 LMΔdd::pCW633。该重组菌株分泌的MV的结构、粒径和主要蛋白成分与野生菌株分泌的一致,但MV的产量大大增加(p + bacteria.
Reducing the degree of crosslinking of peptidoglycan in Listeria monocytogenes promoted the secretion of membrane vesicles
Listeria monocytogenes (LM) is a Gram-positive (G+) bacterium that secretes nanoscale membrane vesicles (MVs). LM MVs comprise various bacterial components and may have potential as an antigen or drug-delivery vehicle; however, the low yield of the LM MVs limits related research. G+-bacterial MVs germinate from the bacterial plasma membrane and must pass through a thick crosslinked peptidoglycan layer for release. Herein, we aimed to increase the release of MVs by reducing the degree of crosslinking of peptidoglycan. We knocked out two genes related to the longitudinal crosslinking of peptidoglycan, dal and dat, and supplemented the knocked-out dal gene through plasmid expression to obtain a stably inherited recombinant strain LMΔdd::pCW633. The structure, particle size, and main protein components of MVs secreted by this recombinant strain were consistent with those secreted from the wild strain, but the yield of MVs was considerably increased (p < 0.05). Furthermore, Listeria ivanovii (LI) was found to secrete MVs that differed in the composition of the main proteins compared with those of LM MVs. The abovementioned method was also feasible for promoting the secretion of MVs from the attenuated LM strain and LI wild-type and attenuated strains. Our study provides a new method to increase the secretion of MVs derived from Listeria that could be extended to other G+ bacteria.
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