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

Imoto Sho; Kibies Patrick; Rosin Christopher; Winter Roland; Kast Stefan M.; Marx Dominik

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

机译：迈向极限生物物理学：解读高压下生物分子溶液的红外响应

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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.

机译：极端条件下的生物物理学是仔细检查异常栖息地（例如深海或大陆地下的栖息地）中生命的基础平台，也是审慎的外星生物的基础平台。因此，要探索的重要热力学变量是压力。结果表明，将红外光谱与模拟相结合是揭示TMAO在水中的溶剂化模式的复杂压力响应的一种精妙方法，该方法有望在其天然溶剂中转化为生物分子。发现水中TMAO的压力增强了氢键。 TMAO是已知的一种分子，其稳定蛋白质以抵抗深海生物体中的压力诱导的变性。

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《Angewandte Chemie》 |2016年第33期|共5页
作者
Imoto Sho; Kibies Patrick; Rosin Christopher; Winter Roland; Kast Stefan M.; Marx Dominik;
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正文语种 eng
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biophysics; computational chemistry; cosolvents; high-pressure chemistry; vibrational spectroscopy;

机译：生物物理学;计算化学;助溶剂;高压化学;振动光谱;

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1. Toward Extreme Biophysics: Deciphering the Infrared Response of Biomolecular Solutions at High Pressures [J] . Imoto Sho, Kibies Patrick, Rosin Christopher, Angewandte Chemie . 2016,第33期

机译：迈向极限生物物理学：解读高压下生物分子溶液的红外响应
2. Toward Extreme Biophysics: Deciphering the Infrared Response of Biomolecular Solutions at High Pressures [J] . Imoto Sho, Kibies Patrick, Rosin Christopher, Angewandte Chemie . 2016,第33期

机译：迈向极限生物物理学：解读高压下生物分子溶液的红外响应
3. The pH response of near infrared 5,5 '-bisulfonic heptamethine indocyanines in water, CTAB solution and metal oxide-based sol under extremely acidic and basic conditions [J] . Zheng Lihui, Wang Liqiu, Liu Yang, Colloids and Surfaces, A. Physicochemical and Engineering Aspects . 2018,第期

机译：在极其酸性和碱性条件下，水，CTAB溶液和基于金属氧化物基近三磺酸丁胺吲哚菁的pH反应
4. Measurement of Blast-induced Pressure in Bench Blasting and Deciphering Explosive Performance through Rock Mass Response Analysis -A Methodology [C] . A K Raina, V M S R Murthy International Symposium on Rock Fragmentation by Blasting . 2015

机译：通过岩石质量响应分析测量板凳喷射和解密爆炸性能的爆破压力测量 - 方法论
5. Biophysical and Biomolecular Components of Dendritic Cell Chemokinesis [D] . Bendell, Amy C. 2017

机译：树突细胞趋化因子的生物物理和生物分子成分
6. Continuous Flow Atmospheric Pressure Laser Desorption/Ionization Using a 6–7-µm-Band Mid-Infrared Tunable Laser for Biomolecular Mass Spectrometry [O] . Ryuji Hiraguchi, Hisanao Hazama, Kenichirou Senoo, 2014

机译：使用6-7μm波段中红外可调谐激光器对生物分子质谱进行连续流大气压激光解吸/电离
7. 1SEP-02 Protein structural fluctuations investigated by small-angle Xray solution scattering and molecular dynamics simulations(1SEP Integrative structural biology and biomolecular SAXS,Symposium,The 51th Annual Meeting of the Biophysical Society of Japan) [O] . Tomotaka Oroguchi, Mitsunori Ikeguchi 2013

机译：1SEP-02蛋白质结构波动由小角度X射线溶液散射和分子动力学模拟（1SEP综合结构生物学和生物分子露萨姆，研讨会，日本生物物理学会的第51次年会）

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

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