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对南极嗜冷细菌利文斯顿希瓦氏菌Ac10进行蛋白质组学研究,以全面鉴定冷诱导蛋白。

Proteomic studies of an Antarctic cold-adapted bacterium, Shewanella livingstonensis Ac10, for global identification of cold-inducible proteins.

作者信息

Kawamoto Jun, Kurihara Tatsuo, Kitagawa Masanari, Kato Ikunoshin, Esaki Nobuyoshi

机构信息

Institute for Chemical Research, Kyoto University, Uji, Kyoto, 611-0011, Japan.

出版信息

Extremophiles. 2007 Nov;11(6):819-26. doi: 10.1007/s00792-007-0098-6. Epub 2007 Jul 7.

DOI:10.1007/s00792-007-0098-6
PMID:17618403
Abstract

Proteomic analysis of a cold-adapted bacterium, Shewanella livingstonensis Ac10, isolated from Antarctic seawater was carried out to elucidate its cold-adaptation mechanism. The cells were grown at 4 degrees C and 18 degrees C, and soluble and membrane proteins were analyzed by two-dimensional gel electrophoresis. At 4 degrees C, the relative abundance of 47 soluble proteins and five membrane proteins increased more than twofold, and these proteins were analyzed by peptide mass fingerprinting. Twenty-six soluble proteins and two membrane proteins were identified. These included proteins involved in RNA synthesis and folding (RpoA, GreA, and CspA), protein synthesis and folding (TufB, Efp, LysU, and Tig), membrane transport (OmpA and OmpC), and motility (FlgE and FlgL). Cold-inducible RpoA, GreA, and CspA may be required for efficient and accurate transcription and proper folding of RNA at low temperatures, where base pairing of nucleic acids is stable and undesired secondary structures of RNA tend to form. Tig is supposed to have peptidyl-prolyl cis-trans isomerase activity and facilitate proper folding of proteins at low temperatures. The cold induction of OmpA and OmpC is likely to counteract the low diffusion rate of solutes at low temperatures and enables the efficient uptake of nutrients. These results provided many clues to understand microbial cold-adaptation mechanisms.

摘要

为阐明嗜冷机制,对从南极海水中分离出的冷适应细菌利文斯顿希瓦氏菌Ac10进行了蛋白质组学分析。细胞在4℃和18℃下培养,通过二维凝胶电泳分析可溶性蛋白和膜蛋白。在4℃时,47种可溶性蛋白和5种膜蛋白的相对丰度增加了两倍以上,并通过肽质量指纹图谱分析这些蛋白。鉴定出26种可溶性蛋白和2种膜蛋白。这些蛋白包括参与RNA合成和折叠的蛋白(RpoA、GreA和CspA)、蛋白质合成和折叠的蛋白(TufB、Efp、LysU和Tig)、膜转运蛋白(OmpA和OmpC)以及运动蛋白(FlgE和FlgL)。低温诱导的RpoA、GreA和CspA可能是低温下高效准确转录和RNA正确折叠所必需的,在低温下核酸碱基配对稳定且RNA倾向于形成不期望的二级结构。Tig被认为具有肽基脯氨酰顺反异构酶活性,并有助于低温下蛋白质的正确折叠。OmpA和OmpC的低温诱导可能抵消低温下溶质的低扩散速率,并使营养物质能够有效摄取。这些结果为理解微生物的冷适应机制提供了许多线索。

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