中子蛋白质晶体学：现状与更光明的未来。

Neutron protein crystallography: current status and a brighter future.

作者信息

Myles Dean A A

机构信息

Center for Structural Molecular Biology, Oak Ridge National Laboratory, PO Box 2008, TN 37831, USA.

出版信息

Curr Opin Struct Biol. 2006 Oct;16(5):630-7. doi: 10.1016/j.sbi.2006.08.010. Epub 2006 Sep 11.

DOI:10.1016/j.sbi.2006.08.010

PMID:16963258

Abstract

Hydrogen atoms are rarely seen in X-ray protein crystal structures, but are readily visualized by neutron crystallography, even at typical (1.5-2.5A) resolutions. Recent advances in neutron beamlines and deuterium labeling technologies have dramatically extended the scale and range of structures studied. High-quality neutron data can be collected to near atomic resolution ( approximately 1.5-2.5A) for proteins of 50-175kDa molecular weight, from perdeuterated samples, from crystals with volumes of 0.1mm(3) and at cryogenic temperatures (15K). These structures are providing unique and complementary insights into hydrogen-bonding interactions, protonation states, catalytic mechanisms and hydration states of biological structures that are not available from X-ray analysis alone. The new generation of spallation neutron sources promises further 10-50-fold gains in performance.

摘要

在X射线蛋白质晶体结构中很少能看到氢原子，但通过中子晶体学却很容易观察到，即使在典型的（1.5 - 2.5埃）分辨率下也是如此。中子束线和氘标记技术的最新进展极大地扩展了所研究结构的规模和范围。对于分子量为50 - 175kDa的蛋白质，可以从全氘代样品、体积为0.1立方毫米的晶体以及在低温（15K）下收集到接近原子分辨率（约1.5 - 2.5埃）的高质量中子数据。这些结构为氢键相互作用、质子化状态、催化机制和生物结构的水合状态提供了仅通过X射线分析无法获得的独特且互补的见解。新一代散裂中子源有望使性能进一步提高10 - 50倍。

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中子蛋白质晶体学：现状与更光明的未来。

Neutron protein crystallography: current status and a brighter future.

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