Biophysical mechanisms of intracellular signaling (transduction) in higher plants

I. Volotovski, S. V. Sukhaveyeva, E. Kabachevskaya
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Abstract

Three fundamental processes running in plant organisms under influence of environment (light, gravity) and key importance were considered. In the light case these are phytоchrome regulation and phototropism considering process is gravitropism. Phytochrome is responsible for regulatory reaction at the inhibition of which the plants cannot be normally developed. The plants do not need phototropism and gravitropism. They were elaborated by evolution as protective reactions to optimize the plant vitality. All these processes are realized according to one and the same logical scheme: stimulus reception, signaling processes in plant cell (transduction) and proper biological effect. According to this scheme the three reactions were considered. As the result the data adout the reception stages are principally different because receptor nature. Signaling processes proceed with participation of many low molecular and high molecular mediators to participate and biophysical, biochemical and genetic reactions. One fact attracts attention that the same mediators are involved to signaling ending by principally different final biological effect.This allows to suggest the existance in plant cell no separate chains for each stimulus but regulatory network formed by lateral and horizontal transduction chains.
高等植物细胞内信号转导的生物物理机制
考虑了在环境(光、重力)影响下植物有机体运行的三个基本过程及其关键重要性。在光的情况下,这些是植物色素调节和光的性考虑过程是倾斜的。光敏色素负责调控反应,在抑制植物不能正常发育。植物不需要向光性和向地性。它们是进化过程中精心设计的保护反应,以优化植物的活力。所有这些过程都是根据同一个逻辑方案实现的:刺激接受、植物细胞的信号转导和适当的生物效应。根据这一方案考虑了三种反应。由于受体的性质不同,接收阶段的数据也有很大的不同。信号传导过程在许多低分子和高分子介质的参与下进行,参与生物物理、生化和遗传反应。一个值得注意的事实是,同样的介质参与信号结束,但最终的生物学效应却截然不同。这表明植物细胞中并没有单独的刺激链,而是由横向和横向转导链组成的调节网络。
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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