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细菌和古菌中的细胞质pH测量与稳态

Cytoplasmic pH measurement and homeostasis in bacteria and archaea.

作者信息

Slonczewski Joan L, Fujisawa Makoto, Dopson Mark, Krulwich Terry A

机构信息

Department of Biology, Kenyon College, Gambier, OH, USA.

出版信息

Adv Microb Physiol. 2009;55:1-79, 317. doi: 10.1016/S0065-2911(09)05501-5.

Abstract

Of all the molecular determinants for growth, the hydronium and hydroxide ions are found naturally in the widest concentration range, from acid mine drainage below pH 0 to soda lakes above pH 13. Most bacteria and archaea have mechanisms that maintain their internal, cytoplasmic pH within a narrower range than the pH outside the cell, termed "pH homeostasis." Some mechanisms of pH homeostasis are specific to particular species or groups of microorganisms while some common principles apply across the pH spectrum. The measurement of internal pH of microbes presents challenges, which are addressed by a range of techniques under varying growth conditions. This review compares and contrasts cytoplasmic pH homeostasis in acidophilic, neutralophilic, and alkaliphilic bacteria and archaea under conditions of growth, non-growth survival, and biofilms. We present diverse mechanisms of pH homeostasis including cell buffering, adaptations of membrane structure, active ion transport, and metabolic consumption of acids and bases.

摘要

在所有影响生长的分子决定因素中,水合氢离子和氢氧根离子在自然界中的浓度范围最广,从pH值低于0的酸性矿山排水到pH值高于13的苏打湖。大多数细菌和古菌都有将其内部细胞质pH值维持在比细胞外pH值更窄范围内的机制,即“pH稳态”。一些pH稳态机制是特定于特定物种或微生物群体的,而一些通用原则适用于整个pH范围。微生物内部pH值的测量存在挑战,不同生长条件下的一系列技术可应对这些挑战。本综述比较并对比了嗜酸、嗜中性和嗜碱细菌及古菌在生长、非生长存活和生物膜条件下的细胞质pH稳态。我们介绍了多种pH稳态机制,包括细胞缓冲、膜结构适应、主动离子运输以及酸和碱的代谢消耗。

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