Are biological sensors modulated by their structural scaffolds? The role of the structural muscle proteins alpha-actinin-2 and alpha-actinin-3 as modulators of biological sensors.

Lek M; North KN

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Are biological sensors modulated by their structural scaffolds? The role of the structural muscle proteins alpha-actinin-2 and alpha-actinin-3 as modulators of biological sensors.

机译：生物传感器是否受到其结构支架的调节？结构肌蛋白α-actinin-2和α-actinin-3作为生物传感器调节剂的作用。

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Biological sensors and their ability to detect and respond to change in the cellular environment can be modulated by protein scaffolds acting within their interaction network. The skeletal muscle alpha-actinins have been considered as primarily structural scaffold proteins. However, deficiency of alpha-actinin-3 due to a common null polymorphism results in predominantly metabolic changes in skeletal muscle function. In this review, we explore the range of phenotypes associated with alpha-actinin-3 deficiency, and draw supporting evidence from known interaction partners for its role as a scaffold which acts to modulate biological sensors that result in changes in muscle metabolism and structure.

机译：生物传感器及其检测和响应细胞环境变化的能力可以通过在其相互作用网络中起作用的蛋白质支架来调节。骨骼肌α-肌动蛋白已被认为是主要的结构支架蛋白。然而，由于常见的无效多态性导致的α-actinin-3缺乏会导致骨骼肌功能的主要代谢改变。在这篇综述中，我们探索了与α-actinin-3缺乏症相关的表型范围，并从已知的相互作用伙伴那里获得了支持性证据，证明其作为支架的作用是调节生物传感器，从而导致肌肉代谢和结构的改变。

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《FEBS letters.》 |2010年第14期|共7页
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Lek M; North KN;
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正文语种 eng
中图分类生物化学;
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机译：生物传感器是否受到其结构支架的调节？结构肌蛋白α-actinin-2和α-actinin-3作为生物传感器调节剂的作用。
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Are biological sensors modulated by their structural scaffolds? The role of the structural muscle proteins alpha-actinin-2 and alpha-actinin-3 as modulators of biological sensors.

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