钙离子对原纤维蛋白力学性质的作用。

Role of Ca(2+) for the mechanical properties of fibrillin.

作者信息

Eriksen T A, Wright D M, Purslow P P, Duance V C

机构信息

Cardiff School of Biosciences, Connective Tissue Biology Laboratories, Cardiff University, Cardiff, United Kingdom.

出版信息

Proteins. 2001 Oct 1;45(1):90-5. doi: 10.1002/prot.1127.

DOI:10.1002/prot.1127

PMID:11536364

Abstract

Fibrillin-rich microfibrils are important structural elements widespread throughout connective tissues. Genetic defects identified in the Ca(2+) binding sites of fibrillin have severe effects and in addition Ca(2+) has a marked effect on the microfibrillar structure. We have studied the role of Ca(2+) on the mechanical behavior of fibrillin-rich microfibrils using the micro-needle technique. We find that Ca(2+)-depletion results in a 50% decrease in rest length and reduces the stiffness of fibrillin-rich microfibrils. At high strain, irreversible damage occurs. This behavior is consistent with Ca(2+) stabilization of interactions between consecutive EGF-like domains and breakdown in the quaternary structure upon over-extension.

摘要

富含原纤蛋白的微原纤维是广泛存在于结缔组织中的重要结构成分。在原纤蛋白的钙离子结合位点发现的基因缺陷具有严重影响，此外钙离子对微原纤维结构也有显著作用。我们使用微针技术研究了钙离子对富含原纤蛋白的微原纤维力学行为的作用。我们发现钙离子缺失导致静止长度减少50%，并降低了富含原纤蛋白的微原纤维的刚度。在高应变下，会发生不可逆损伤。这种行为与钙离子对连续表皮生长因子样结构域之间相互作用的稳定作用以及过度伸展时四级结构的破坏是一致的。

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钙离子对原纤维蛋白力学性质的作用。

Role of Ca(2+) for the mechanical properties of fibrillin.

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