微重力环境下的细胞骨架张拉整体结构

Cytoskeletal Tensegrity in Microgravity.

作者信息

Gardiner John

机构信息

Independent Researcher, Glebe 2037, Australia.

出版信息

Life (Basel). 2021 Oct 15;11(10):1091. doi: 10.3390/life11101091.

DOI:10.3390/life11101091

PMID:34685463

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8537661/

Abstract

In order for Man to venture further into Space he will have to adapt to its conditions, including microgravity. Life as we know it has evolved on Earth with a substantial gravitational field. If they spend considerable time away from Earth, astronauts experience physiological, mental, and anatomical changes. It is not clear if these are pathological or adaptations. However, it is true that they experience difficulties on their return to stronger gravity. The cytoskeleton is a key site for the detection of gravitational force within the body, due to its tensegrity architecture. In order to understand what happens to living beings in space, we will need to unravel the role cytoskeletal tensegrity architecture plays in the building and function of cells, organs, the body, and mind.

摘要

为了让人类进一步探索太空，他将不得不适应太空环境，包括微重力环境。我们所知的生命是在具有强大引力场的地球上进化而来的。如果宇航员长时间远离地球，他们会经历生理、心理和解剖学上的变化。目前尚不清楚这些变化是病理性的还是适应性的。然而，他们在重返更强重力环境时确实会遇到困难。由于其张拉整体结构，细胞骨架是体内检测重力的关键部位。为了了解生物在太空中会发生什么，我们需要弄清楚细胞骨架的张拉整体结构在细胞、器官、身体和心智的构建与功能中所起的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c01/8537661/1ddea98b3f2d/life-11-01091-g001.jpg

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微重力环境下的细胞骨架张拉整体结构

Cytoskeletal Tensegrity in Microgravity.

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