Translation machinery: the basis of translational control.

Shu Yuan, Guilong Zhou, Guoyong Xu
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引用次数: 0

Abstract

Messenger RNA (mRNA) translation consists of initiation, elongation, termination, and ribosome recycling, carried out by the translation machinery, primarily including tRNAs, ribosomes, and translation factors (TrFs). Translational regulators transduce signals of growth and development, as well as biotic and abiotic stresses, to the translation machinery, where global or selective translational control occurs to modulate mRNA translation efficiency (TrE). As the basis of translational control, the translation machinery directly determines the quality and quantity of newly synthesized peptides and, ultimately, the cellular adaption. Thus, regulating the availability of diverse machinery components is reviewed as the central strategy of translational control. We provide classical signaling pathways (e.g., integrated stress responses) and cellular behaviors (e.g., liquid-liquid phase separation) to exemplify this strategy within different physiological contexts, particularly during host-microbe interactions. With new technologies developed, further understanding this strategy will speed up translational medicine and translational agriculture.

翻译机制:翻译控制的基础。
信使 RNA(mRNA)的翻译包括起始、延伸、终止和核糖体循环,由主要包括 tRNA、核糖体和翻译因子(TrFs)在内的翻译机械完成。翻译调节因子将生长和发育信号以及生物和非生物胁迫信号传递给翻译机械,在翻译机械中进行全局或选择性翻译控制,以调节 mRNA 翻译效率(TrE)。作为翻译控制的基础,翻译机制直接决定了新合成多肽的质量和数量,并最终决定了细胞的适应性。因此,调节不同翻译机制成分的可用性被认为是翻译控制的核心策略。我们提供了经典的信号通路(如综合应激反应)和细胞行为(如液-液相分离),在不同的生理背景下,特别是在宿主与微生物相互作用期间,对这一策略进行了举例说明。随着新技术的发展,进一步了解这一策略将加速转化医学和转化农业的发展。
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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