集胞藻PCC 6803中机械敏感通道在渗透下冲适应中的作用表征
Characterization of the role of a mechanosensitive channel in osmotic down shock adaptation in Synechocystis sp PCC 6803.
作者信息
Nanatani Kei, Shijuku Toshiaki, Akai Masaro, Yukutake Yoshinori, Yasui Masato, Hamamoto Shin, Onai Kiyoshi, Morishita Megumi, Ishiura Masahiro, Uozumi Nobuyuki
机构信息
Department of Biomolecular Engineering; Graduate School of Engineering; Tohoku University; Sendai, Japan.
出版信息
Channels (Austin). 2013 Jul-Aug;7(4):238-42. doi: 10.4161/chan.25350. Epub 2013 Jun 13.
Abstract
Synechocystis sp strain PCC 6803 contains one gene encoding a putative large conductance mechanosensitive channel homolog [named SyMscL (slr0875)]. However, it is unclear whether SyMscL contributes to the adaptation to hypoosmotic stress in Synechocystis. Here we report the in vivo characteristics of SyMscL. SyMscL was mainly expressed in the plasma membrane of Synechocystis. Cell volume monitoring using stopped-flow spectrophotometry showed that ΔsymscL cells swelled more rapidly than wild-type cells under hypoosmotic stress conditions. Expression of symscL was under circadian control, and its peak corresponded to the beginning of subjective night. These results indicate that SyMscL functioned as one component of the osmotic homeostatic regulatory system of the cell coordinating the response of Synechocystis to daily metabolic osmotic fluctuations and environmental changes.
摘要
聚球藻属PCC 6803菌株含有一个编码假定的大电导机械敏感通道同源物的基因[命名为SyMscL (slr0875)]。然而,尚不清楚SyMscL是否有助于聚球藻适应低渗胁迫。在此我们报告SyMscL的体内特性。SyMscL主要在聚球藻的质膜中表达。使用停流分光光度法进行的细胞体积监测表明,在低渗胁迫条件下,ΔsymscL细胞比野生型细胞膨胀得更快。symscL的表达受昼夜节律控制,其峰值对应主观夜间的开始。这些结果表明,SyMscL作为细胞渗透稳态调节系统的一个组成部分,协调聚球藻对日常代谢渗透波动和环境变化的反应。
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