使用可收获微流控装置生长衍射质量的蛋白质晶体。

Growth of Diffraction-Quality Protein Crystals Using a Harvestable Microfluidic Device.

作者信息

Lee Michael J Y, Faucher Frédérick, Jia Zongchao

机构信息

Department of Biomedical and Molecular Sciences, Queen's University , Kingston, Ontario K7L 3N6, Canada.

出版信息

Cryst Growth Des. 2014 Jul 2;14(7):3179-3181. doi: 10.1021/cg500450b. Epub 2014 May 28.

DOI:10.1021/cg500450b

PMID:25013386

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4082397/

Abstract

Protein crystallization is the major bottleneck in the entire process of protein crystallography, and obtaining diffraction-quality crystals can be unpredictable and sometimes exceptionally difficult, requiring many rounds of high-throughput screening. Recently, a more time- and cost-saving strategy to use the commercially available microfluidic devices called Crystal Formers has emerged. Herein we show the application of such a device using a protein from called LidL that is predicted to be involved in the ability to efficiently manipulate host cell trafficking events once internalized by the host cell. After setting up just one 96-channel Crystal Former tray, we were able to obtain a diffraction-quality crystal that diffracted to 2.76 Å. These results show that Crystal Formers can be used to screen and optimize crystals to directly produce crystals for structure determination.

摘要

蛋白质结晶是蛋白质晶体学整个过程中的主要瓶颈，获得具有衍射质量的晶体可能不可预测，有时异常困难，需要进行多轮高通量筛选。最近，一种使用名为“晶体生成器”的商用微流控设备的更省时省钱的策略出现了。在此，我们展示了这种设备在一种名为LidL的蛋白质上的应用，据预测，该蛋白质一旦被宿主细胞内化，就参与有效操纵宿主细胞运输事件的能力。在设置好一个96通道的晶体生成器托盘后，我们就获得了一个衍射至2.76 Å的具有衍射质量的晶体。这些结果表明，晶体生成器可用于筛选和优化晶体，以直接产生用于结构测定的晶体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/82b1/4082397/89a1d87b8a85/cg-2014-00450b_0002.jpg

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使用可收获微流控装置生长衍射质量的蛋白质晶体。

Growth of Diffraction-Quality Protein Crystals Using a Harvestable Microfluidic Device.

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