通过高压冷冻冷却减少蛋白质晶体中的晶格无序。

Reduction of lattice disorder in protein crystals by high-pressure cryocooling.

作者信息

Huang Qingqiu, Gruner Sol M, Kim Chae Un, Mao Yuxin, Wu Xiaochun, Szebenyi Doletha M E

机构信息

MacCHESS, Cornell University , Ithaca, NY 14853, USA.

Department of Physics, Cornell University , Ithaca, NY 14853, USA.

出版信息

J Appl Crystallogr. 2016 Feb 1;49(Pt 1):149-157. doi: 10.1107/S1600576715023195.

DOI:10.1107/S1600576715023195

PMID:26937238

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4762570/

Abstract

High-pressure cryocooling (HPC) has been developed as a technique for reducing the damage that frequently occurs when macromolecular crystals are cryocooled at ambient pressure. Crystals are typically pressurized at around 200 MPa and then cooled to liquid nitrogen temperature under pressure; this process reduces the need for penetrating cryoprotectants, as well as the damage due to cryocooling, but does not improve the diffraction quality of the as-grown crystals. Here it is reported that HPC using a pressure above 300 MPa can reduce lattice disorder, in the form of high mosaicity and/or nonmerohedral twinning, in crystals of three different proteins, namely human glutaminase C, the GTP pyrophosphokinase YjbM and the uncharacterized protein lpg1496. Pressure lower than 250 MPa does not induce this transformation, even with a prolonged pressurization time. These results indicate that HPC at elevated pressures can be a useful tool for improving crystal packing and hence the quality of the diffraction data collected from pressurized crystals.

摘要

高压冷冻冷却（HPC）已发展成为一种技术，用于减少在常压下对大分子晶体进行冷冻冷却时经常出现的损伤。晶体通常在约200兆帕的压力下加压，然后在压力下冷却至液氮温度；此过程减少了对穿透性冷冻保护剂的需求以及冷冻冷却造成的损伤，但并未改善生长晶体的衍射质量。在此报告，使用高于300兆帕的压力进行HPC可减少三种不同蛋白质晶体中的晶格无序，其形式为高镶嵌性和/或非等轴孪晶，这三种蛋白质分别是人谷氨酰胺酶C、GTP焦磷酸激酶YjbM和未表征的蛋白质lpg1496。即使延长加压时间，低于250兆帕的压力也不会引发这种转变。这些结果表明，高压下的HPC可以成为改善晶体堆积从而提高从加压晶体收集的衍射数据质量的有用工具。

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