分子伴侣：细胞网络的模块化进化

Molecular chaperones: the modular evolution of cellular networks.

作者信息

Korcsmáros Tamás, Kovács István A, Szalay Máté S, Csermely Péter

机构信息

Department of Medical Chemistry, Semmelweis University, Budapest, Hungary.

出版信息

J Biosci. 2007 Apr;32(3):441-6. doi: 10.1007/s12038-007-0043-y.

DOI:10.1007/s12038-007-0043-y

PMID:17536163

Abstract

Molecular chaperones play a prominent role in signaling and transcriptional regulatory networks of the cell. Recent advances uncovered that chaperones act as genetic buffers stabilizing the phenotype of various cells and organisms and may serve as potential regulators of evolvability. Chaperones have weak links, connect hubs, are in the overlaps of network modules and may uncouple these modules during stress,which gives an additional protection for the cell at the network-level. Moreover,after stress chaperones are essential to re-build inter-modular contacts by their low affinity sampling of the potential interaction partners in different modules. This opens the way to the chaperone-regulated modular evolution of cellular networks,and helps us to design novel therapeutic and anti-aging strategies.

摘要

分子伴侣在细胞的信号传导和转录调控网络中发挥着重要作用。最近的研究进展发现，分子伴侣作为遗传缓冲剂，可稳定各种细胞和生物体的表型，并可能作为进化潜力的潜在调节因子。分子伴侣具有薄弱环节，连接枢纽，处于网络模块的重叠部分，并且在应激期间可能使这些模块解耦，这在网络层面为细胞提供了额外的保护。此外，应激后，分子伴侣通过对不同模块中潜在相互作用伙伴的低亲和力采样来重建模块间接触至关重要。这为分子伴侣调节的细胞网络模块化进化开辟了道路，并有助于我们设计新的治疗和抗衰老策略。

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分子伴侣：细胞网络的模块化进化

Molecular chaperones: the modular evolution of cellular networks.

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