Resolution Revolution—FEBS Letters' Cryo-Electron Microscopy Special Issue
Cryo-electron microscopy (cryo-EM) revolutionized structural biology by enabling high-resolution imaging of biomolecules in their native state. This free special issue edited by Panagiotis L. Kastritis features 8 review articles that highlight how cryo-EM is moving beyond static structure determination toward understanding the dynamics, assembly, regulation, evolution, and cellular context of biomolecular complexes, increasingly supported by advanced computational and AI-driven methods.
We invite you to read the full issue here, or view the individual articles at the links below:
Structural biology of ferritin nanocages. Eloise Mastrangelo, Flavio Di Pisa
AAA+ protein unfoldases—the Moirai of the proteome. Stavros Azinas, Marta Carroni
Structural diversity of pyruvate dehydrogenase complexes. Sarah N. Bothe, Rafal Zdanowicz
Mapping the evolution of mitochondrial complex I through structural variation. Dong-Woo Shin, Tingting Chen, James A. Letts
TOR signaling on membranes. Robbie Loewith, Lucas Tafur
Revealing the structure of land plant photosystem II: the journey from negative-stain EM to cryo-EM. Roman Kouřil
Towards better structural models from cryo-electron microscopy data with physics-based methods. Hande Boyaci Selcuk, Gabriella Reggiano, Jacob Robson-Tull, Lichirui Zhang, João P. G. L. M. Rodrigues
Exploring the potential of AlphaFold distograms for predicting binding-induced hinge motions. Büşra Savaş, Ayşe Berçin Barlas, Ezgi Karaca
FEBS Letters is renowned both for its quality of content and speed of production. Bringing together the most important developments in the molecular biosciences, FEBS Letters provides an international forum for Reviews, Research Letters and Research Articles that merit urgent publication.
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