走向极端生物物理：在高压下破译生物分子溶液的红外响应。

Toward Extreme Biophysics: Deciphering the Infrared Response of Biomolecular Solutions at High Pressures.

机构信息

Lehrstuhl für Theoretische Chemie, Ruhr-Universität Bochum, 44780, Bochum, Germany.

Physikalische Chemie III, Technische Universität Dortmund, 44227, Dortmund, Germany.

出版信息

Angew Chem Int Ed Engl. 2016 Aug 8;55(33):9534-8. doi: 10.1002/anie.201602757. Epub 2016 Jun 28.

DOI:10.1002/anie.201602757

PMID:27351995

Abstract

Biophysics under extreme conditions is the fundamental platform for scrutinizing life in unusual habitats, such as those in the deep sea or continental subsurfaces, but also for putative extraterrestrial organisms. Therefore, an important thermodynamic variable to explore is pressure. It is shown that the combination of infrared spectroscopy with simulation is an exquisite approach for unraveling the intricate pressure response of the solvation pattern of TMAO in water, which is expected to be transferable to biomolecules in their native solvent. Pressure-enhanced hydrogen bonding was found for TMAO in water. TMAO is a molecule known to stabilize proteins against pressure-induced denaturation in deep-sea organisms.

摘要

极端条件下的生物物理学是研究特殊生境中生命现象的基础平台，这些生境包括深海或大陆地下等环境，也包括可能存在的地外生物。因此，压力是一个需要探索的重要热力学变量。研究表明，将红外光谱与模拟相结合是揭示 TMAO 在水中溶剂化模式复杂压力响应的一种精妙方法，这种方法有望推广到其天然溶剂中的生物分子。研究发现，TMAO 在水中的氢键增强了。TMAO 是一种已知的分子，它可以稳定深海生物体内蛋白质，防止其因压力而变性。

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走向极端生物物理：在高压下破译生物分子溶液的红外响应。

Toward Extreme Biophysics: Deciphering the Infrared Response of Biomolecular Solutions at High Pressures.

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