npj Microgravity Review Article: Microgravity protein crystallization

This article by Alexander McPherson (University of California, Irvine, CA, USA) and Lawrence James DeLucas (University of Alabama at Birmingham, Center for Biophysical Sciences and Engineering, Birmingham, AL, USA) was published online by npj Microgravity on September 3, 2015.

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Dec 16, 2015
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Abstract

Over the past 20 years a variety of technological advances in X-ray crystallography have shortened the time required to determine the structures of large macromolecules (i.e., proteins and nucleic acids) from several years to several weeks or days. However, one of the remaining challenges is the ability to produce diffraction-quality crystals suitable for a detailed structural analysis. Although the development of automated crystallization systems combined with protein engineering (site-directed mutagenesis to enhance protein solubility and crystallization) have improved crystallization success rates, there remain hundreds of proteins that either cannot be crystallized or yield crystals of insufficient quality to support X-ray structure determination. In an attempt to address this bottleneck, an international group of scientists has explored use of a microgravity environment to crystallize macromolecules. This paper summarizes the history of this international initiative along with a description of some of the flight hardware systems and crystallization results.

Image: Hexagonal by-pyramidal crystals of turnip yellow mosaic virus (TYMV)

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Go to the profile of Andrea Macaluso

Andrea Macaluso

Publisher, Nature Partner Journals, Springer Nature

Publisher, Nature Partner Journals, responsible for the US & Latin America, working with world renowned partners aimed at advancing science.

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