Latest Articles for Biophysics

Cells navigate surfaces based on firmness, affecting healing and tissue development.

Examining how excitons impact DNA's energy dynamics and genetic stability.

Researchers develop a direct technique to measure how DNA bends.

A study reveals how mixed lipid vesicles behave under various conditions.

Explore how energy is exchanged in small particles within fluids.

Recent models shed light on how cells interact on surfaces.

Study reveals how phase separation affects the structure of disordered proteins.

New methods improve accuracy in cryo-electron microscopy for molecular imaging.

A new model enhances our understanding of membrane behavior in living systems.

Researchers develop efficient models to study lipid membranes and cellular dynamics.

A new method shows promise in accurately measuring fluid movement in complex systems.

SMART helps scientists simulate and understand cell signaling processes.

This study uses SAXS and SANS to analyze RNA:RNA interactions.

THz waves show potential in diagnosing and treating various health conditions.

Investigating unusual movement behaviors in materials under stress.

A new method analyzes how proteins behave on cell surfaces.

Examining how shape affects the movement of particles in unique fluid environments.

Exploring how mental actions may affect ion scattering in neurons.

A look at the Casimir effect and its surprising behaviors in new theories.

A new benchmark for improving biophysical sequence optimization methods.

Exploring energy use and dissipation in calcium and neuronal oscillations.

Centrosomes manage microtubules and are crucial during cell division.

Exploring how protein sequences impact aggregation and their connection to diseases.

Examining how lipid membranes and actin networks work together in cells.

Research reveals how DNA link styles affect curvature and material properties.

Hybrid approach improves simulations of complex molecular behaviors using expert knowledge and data.

Research reveals how microtubule-motor networks repair themselves through dynamic interactions.

Research reveals complex interactions in spin relaxation and their implications.

Exploring how disks behave in special liquid films with unique properties.

Study reveals how active patchy particles form unique structures through interactions.

Study focuses on how chirality and noise shape active solids' behavior.

Research reveals how active segments in polymers increase knot formation probability.

A new approach to measure forces in developing cells enhances our understanding of tissue formation.

This article examines the importance of Ampere interactions at small scales.

Investigating how crowded conditions affect protein movement and interaction in cells.

Research sheds light on microtubule behavior and their role in cellular processes.

Exploring the behavior of semiflexible polymers and their applications in science.

A novel approach to analyze heat conduction effects, especially with fever medications.

Examining the role of signals and structures in cell behavior.

Explores how randomness in protein production stabilizes the N/C ratio in cells.