Bacterial Cold Shock Proteins - the Molecular Chaperones for Multiple Stress Tolerance

K. Pb
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引用次数: 9

Abstract

Bacteria encounter different changing environments but resist the environmental changes by developing an array of mechanisms which protect them from adverse conditions. During cold conditions, fluidity of cell membranes decreases, and this results in lowering of active transport and protein secretion [1]. Further, all the molecular mechanisms gets impaired due to stabilization of secondary structures of DNA, RNA, and proteins [2]. RNA binding proteins (RNA chaperones) are ubiquitous and found in all living organisms and help to resolve the misfolded RNA structures under abiotic stress conditions. During rapid drop in temperatures, cold-induced proteins (Cips) are produced to protect the cells. With an increase in the cold conditions, the production of Cips also increases [3]. Different types of Cips like cold shock protein (Csp) family, RNA helicase csdA, exoribonucleases, PNPase and RNaseR, initiation factors 2a and 2b, NusA, and RecA [4-7] have been identified in Escherichia coli (E. coli). The Csps are one of the major Cips produced under cold conditions mainly in bacteria [4,8].
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细菌冷休克蛋白-多重应激耐受的分子伴侣
细菌遇到不同的变化环境,但通过发展一系列保护它们免受不利条件影响的机制来抵抗环境变化。在寒冷条件下,细胞膜的流动性降低,导致主动运输和蛋白质分泌降低[1]。此外,由于DNA、RNA和蛋白质二级结构的稳定,所有的分子机制都受到损害[2]。RNA结合蛋白(RNA chaperone)普遍存在于所有生物体中,并有助于解决非生物胁迫条件下错误折叠的RNA结构。在温度迅速下降的过程中,产生冷诱导蛋白(Cips)来保护细胞。随着寒冷条件的增加,cip的产量也随之增加[3]。在大肠杆菌中发现了不同类型的cip,如冷休克蛋白(Csp)家族、RNA解旋酶csdA、外核糖核酸酶、PNPase和RNaseR、起始因子2a和2b、NusA和RecA[4-7]。Csps是低温条件下主要在细菌中产生的主要cip之一[4,8]。
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