Electron crystallography — the waking beauty of structural biology

Since its debut in the mid 1970s, electron crystallography has been a valuable alternative in the structure determination of biological macromolecules. Its reliance on single-layered or double-layered two-dimensionally ordered arrays and the ability to obtain structural information from small and disordered crystals make this approach particularly useful for the study of membrane proteins in a lipid bilayer environment. Despite its unique advantages, technological hurdles have kept electron crystallography from reaching its full potential. Addressing the issues, recent initiatives developed high-throughput pipelines for crystallization and screening. Adding progress in automating data collection, image analysis and phase extension methods, electron crystallography is poised to raise its profile and may lead the way in exploring the structural biology of macromolecular complexes.

► Automation of 2D-crystallization and sample screening for high-throughput analysis. ► Graphical interfaces facilitate data analysis. ► Fragment based phase extension — a novel alternative to imaging at high resolution. ► Small arrays — a way to tackle the structural biology of macromolecular complexes.