AI Article Synopsis

  • Microcrystal electron diffraction (MicroED) is an advanced structural method useful for analyzing a variety of samples, including small molecules and proteins, using cryogenic electron microscopy techniques.
  • The method captures diffraction data through the continuous rotation of small 3D crystals while being observed by a high-speed camera, then utilizes X-ray crystallographic software for structure determination.
  • This guide provides detailed protocols for preparing samples, emphasizing that individual crystals need tailored growth conditions, and aids those with backgrounds in biochemistry and crystallography in optimizing their MicroED experiments, which can take from one day to several weeks.

Article Abstract

Microcrystal electron diffraction (MicroED) has advanced structural methods across a range of sample types, from small molecules to proteins. This cryogenic electron microscopy (cryo-EM) technique involves the continuous rotation of small 3D crystals in the electron beam, while a high-speed camera captures diffraction data in the form of a movie. The crystal structure is subsequently determined by using established X-ray crystallographic software. MicroED is a technique still under development, and hands-on expertise in sample preparation, data acquisition and processing is not always readily accessible. This comprehensive guide on MicroED sample preparation addresses commonly used methods for various sample categories, including room temperature solid-state small molecules and soluble and membrane protein crystals. Beyond detailing the steps of sample preparation for new users, and because every crystal requires unique growth and sample-preparation conditions, this resource provides instructions and optimization strategies for MicroED sample preparation. The protocol is suitable for users with expertise in biochemistry, crystallography, general cryo-EM and crystallography data processing. MicroED experiments, from sample vitrification to final structure, can take anywhere from one workday to multiple weeks, especially when cryogenic focused ion beam milling is involved.

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Source
http://dx.doi.org/10.1038/s41596-024-01088-7DOI Listing

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