About
Structural Biology is an exciting field that focuses on understanding the three-dimensional structures of biological molecules and their interactions. This interdisciplinary discipline combines insights from biology, chemistry, physics, and computational sciences to unravel the atomic-level details of proteins, nucleic acids, and other biomolecules.
Structural biologists investigate topics such as protein folding, enzyme mechanisms, and macromolecular complexes. By using techniques like X-ray crystallography, NMR spectroscopy, and cryo-electron microscopy, they provide insights into the fundamental processes of life. Structural Biology plays a pivotal role in drug discovery, enzyme engineering, and understanding the molecular basis of diseases.
- ✓Protein structure determination
- ✓Nucleic acid structure analysis
- ✓Macromolecular complex structures
- ✓Enzyme mechanisms and catalysis
- ✓Membrane protein structures
- ✓Protein-ligand interactions
- ✓Structural genomics
- ✓Structural bioinformatics
- ✓Molecular modeling
- ✓Cryo-electron microscopy
- ✓X-ray crystallography
- ✓NMR spectroscopy
- ✓Structural biology and drug design
- ✓Structural biology and molecular evolution
- ✓Structural biology and bioengineering
- ✓Structural biology and biophysics
- ✓Structural biology and systems biology
- ✓Structural biology education and outreach
- ✓Advancements in structural biology research
- ✓Structural biology and personalized medicine
- ✓Structural biology and enzymology
- ✓Structural biology and disease mechanisms
- ✓Structural biology and biotechnology
- ✓Structural biology and protein engineering
- ✓Structural biology and synthetic biology