Macromolecular Assembly

Macromolecular assembly-Understand the fundamental processes of how macromolecules come together to form complex biological structures, influencing cellular function

Protein-Gain insights into protein structure, folding, and function, key to understanding cellular processes and disease mechanisms

Ribosome-Discover the structure and function of ribosomes, the molecular machines responsible for protein synthesis in all living organisms

Structural biology-Learn how structural biology uncovers the 3D architecture of macromolecules, providing a deeper understanding of their function

Macromolecule-Explore the diverse types of macromolecules that make up living organisms, including proteins, nucleic acids, and polysaccharides

Peripheral membrane protein-Understand the role of peripheral membrane proteins in cellular signaling, communication, and membrane stability

Structural bioinformatics-Dive into the field of structural bioinformatics, where computational tools are used to analyze and predict macromolecular structures

Transmission electron cryomicroscopy-Explore the revolutionary technique of cryoEM, providing unprecedented views of biological macromolecules at nearatomic resolution

Biomolecular structure-Delve into the study of biomolecular structures and how they relate to biological function and drug design

Eva Nogales-Learn about Eva Nogales' groundbreaking contributions to understanding molecular structures, particularly in the field of cryoelectron microscopy

Molecular biophysics-Discover the key principles of molecular biophysics, blending biology, physics, and chemistry to understand macromolecular behavior

Resolution (structural biology)-Understand the importance of resolution in structural biology techniques, particularly in protein structure determination

Biological data visualization-Learn how advanced visualization techniques help to represent complex biological data, aiding in scientific discovery and communication

Biophysical chemistry-Explore the chemical principles underlying biophysical phenomena, crucial for understanding macromolecular behavior and interactions

Food physical chemistry-Investigate the intersection of food science and biophysics, focusing on the physical chemistry of food at the molecular level

Joachim Frank-Discover the pioneering work of Joachim Frank in cryoEM and his significant contributions to the visualization of molecular structures

Protein–ligand complex-Explore the interactions between proteins and ligands, essential for drug design and understanding molecular recognition processes

Cryogenic electron microscopy-Understand how cryoEM allows for highresolution imaging of biomolecules, advancing structural biology and drug discovery

Protein primary structure-Delve into the primary structure of proteins and how this sequence determines their function and interactions

Protein biosynthesis-Learn about the cellular processes responsible for translating genetic information into functional proteins

Protein targeting-Understand the mechanisms that direct proteins to their correct location within the cell, essential for cellular function and survival