Coccoid formation as a mechanism of species-preservation in Helicobacter pylori: an ultrastructural study.

Nagahito Saito, Kohei Konishi, Mototsugu Kato, Hiroshi Takeda, Masahiro Asaka, Hong Kean Ooi
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Abstract

Helicobacter pylori (H. pylorii) changes from a spiral form to coccoid by the aggravation of its surrounding environment. It was believed that the coccoid H. pylori indicated to be dying or becoming dormant. However, the implication of coccoid formation, itself, has not yet been elucidated. In this study, both the ultrastructural changes and the localization of the intracellular DNA were observed during coccoid formation in H. pylori. Some coccoid forms were observed to adhere to each other during transformation from the spiral form. The DNA and Cag A in each bacterium were detected at the boundary area of the aggregate, and then mixed in one new coccoid bacterium formed from the syncytium by plural bacteria. This type of coccoid formation was thought to be a transfer phenomenon of intracellular genetic proteins into neighbor organisms. In other words, the coccoid formation of H. pylori means not only the dying or the dormant condition but also a horizontal gene transfer processes with a positive significance for species-preservation under environmental stress.

幽门螺杆菌球粒形成作为物种保存机制的超微结构研究。
幽门螺杆菌(Helicobacter pylori, H. pylorii)在其周围环境恶化的情况下由螺旋形变为球型。人们认为,球虫幽门螺杆菌表明正在死亡或进入休眠状态。然而,球体形成本身的含义尚未阐明。本研究观察了幽门螺杆菌球虫形成过程中细胞内DNA的超微结构变化和定位。在螺旋形转化过程中,观察到一些球形相互粘附。在聚集体的边界区域检测每个细菌的DNA和Cag A,然后将其混合在复数细菌从合胞体形成的一个新的球虫细菌中。这种类型的球粒形成被认为是细胞内遗传蛋白向邻近生物体的转移现象。也就是说,幽门螺杆菌的球粒形成不仅意味着死亡或休眠状态,而且是一个水平的基因转移过程,对环境胁迫下的物种保存具有积极意义。
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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