“低温”晶体：大分子低温晶体学与辐射损伤

'Cool' crystals: macromolecular cryocrystallography and radiation damage.

作者信息

Garman Elspeth

机构信息

Laboratory of Molecular Biophysics, Rex Richards Building, Department of Biochemistry, University of Oxford, South Parks Road, Oxford, OX1 3QU, UK.

出版信息

Curr Opin Struct Biol. 2003 Oct;13(5):545-51. doi: 10.1016/j.sbi.2003.09.013.

DOI:10.1016/j.sbi.2003.09.013

PMID:14568608

Abstract

Macromolecular crystals commonly suffer rapid radiation damage during room temperature X-ray data collection. Therefore, data are now routinely collected with the sample held at around 100K, significantly reducing secondary radiation damage, and usually resulting in higher resolution and better quality data. At synchrotron sources, the frequent observation of radiation damage even at cryotemperatures has prompted the development of exciting new experiments aimed at characterising and reducing this damage, and using it for structure determination and enzymatic studies. Current research into cryotechniques seeks to understand the basic physical and chemical processes involved in flash-cooling and radiation damage, which should eventually enable the rational optimisation of cryoprotocols.

摘要

在室温X射线数据收集过程中，大分子晶体通常会迅速遭受辐射损伤。因此，现在通常在样品保持在约100K的温度下收集数据，这显著减少了二次辐射损伤，并且通常会得到更高分辨率和更好质量的数据。在同步辐射源处，即使在低温下也经常观察到辐射损伤，这促使人们开展了令人兴奋的新实验，旨在表征和减少这种损伤，并将其用于结构测定和酶学研究。目前对低温技术的研究旨在了解快速冷却和辐射损伤所涉及的基本物理和化学过程，这最终应能实现对冷冻方案的合理优化。

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“低温”晶体：大分子低温晶体学与辐射损伤

'Cool' crystals: macromolecular cryocrystallography and radiation damage.

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