Learn about radiation damage in cryo-electron microscopy, its impact on structural data, and strategies to minimize its effects in electron cryo-EM imaging.
Discover the basics of cryo-EM, its methodologies, and its impact on structural biology, enabling near-atomic resolution imaging of biological structures.
Learn how single-particle cryo-EM revolutionizes structural biology, enabling high-resolution imaging of biomolecules in their native states.
Learn how cryo-electron microscopy (cryo-EM) reveals detailed structures of large, dynamic biological molecules, providing key insights into macromolecular interactions.
Discover the stages of the cryo-EM workflow and how JEOL's advanced technology enhances macromolecular imaging for groundbreaking structural biology research.
Explore the differences and synergies between cryo-EM and X-ray crystallography, two revolutionary techniques advancing structural biology and molecular discovery.
With its high-resolution imaging capabilities and ability to preserve cells and molecules for study, cryo-EM is perfect for drug discovery. Find out more now!
The impact of cryo-EM has been so profound that it is predicted to surpass X-ray crystallography as the predominant structural biology method by 2024.
Cryo-electron microscopy is an imaging method that has revolutionized the recording 3D images of the structures of proteins.