Biophysics

“Biophysics” provides an indepth exploration of molecular biophysics, shedding light on the vital intersection of biology, chemistry, and physics. As part of the “Molecular Biophysics” series, this book is an essential resource for professionals, students, and anyone interested in the intricate details of molecular interactions that govern life processes. With a strong focus on biophysical principles, key figures, and cuttingedge research, this book will help you understand the mechanisms that power the molecular machinery of living organisms

Biophysics-Introduces the foundational principles of biophysics and their application in understanding biological systems at the molecular level

Mikhail Volkenstein-Explores Volkenstein's contributions to molecular biophysics and his theoretical framework for molecular interactions

Carlos Bustamante (biophysicist)-Discusses Bustamante's groundbreaking work in the study of molecular motors and DNA dynamics

Chemical biology-Examines the interdisciplinary field of chemical biology, bridging the gap between chemistry and biology, focusing on molecular interactions and their biological implications

Max Planck Institute for Biophysical Chemistry-Highlights the role of the institute in advancing biophysical research and its significant contributions to the field

Molecular biophysics-Delves into the core concepts of molecular biophysics, emphasizing the role of physics in understanding molecular structures and processes in living organisms

Max Planck Institute for Medical Research-Focuses on the medical research breakthroughs at the Max Planck Institute, particularly in biophysical applications in health and disease

Arieh Warshel-Explores Warshel's pioneering work in computational biophysics, emphasizing the importance of molecular simulations in understanding biological processes

Biophysical chemistry-Discusses the integration of physics and chemistry to study molecular structures, reactions, and their impact on biological systems

Food physical chemistry-Applies biophysical principles to the study of food chemistry, focusing on molecular interactions that affect food properties and health

Martin Gruebele-Investigates Gruebele's research in protein folding and molecular dynamics, shedding light on the biophysics of complex proteins

Stephen H. White-Examines White's contributions to understanding membrane proteins, focusing on their biophysical properties and functions

G. Marius Clore-Explores Clore's work on nuclear magnetic resonance (NMR) spectroscopy and its applications in studying protein structures and dynamics

Klaus Schulten-Discusses Schulten's pioneering use of computational simulations to understand the biophysics of large biomolecular systems

Laura Eisenstein-Focuses on Eisenstein's research in structural biology, particularly her contributions to understanding molecular interactions at the atomic level

Nikolay Dokholyan-Highlights Dokholyan's work in computational biology and biophysics, focusing on protein dynamics and folding

Chemistry-Provides an overview of the chemical principles that underlie molecular biophysics, connecting chemistry to biophysical phenomena

Inorganic chemistry-Investigates the role of inorganic chemistry in molecular biophysics, particularly the role of metal ions in biological systems

Molecule-Explores the structural and functional aspects of molecules, focusing on their behavior in biological systems and the importance of molecular interactions

Physical chemistry-Examines the principles of physical chemistry and their application in understanding molecular behavior and biological systems

Quantum chemistry-Discusses the role of quantum chemistry in elucidating the fundamental interactions that govern molecular behavior at the atomic and subatomic level