Latest Articles for Biophysics

New methods improve understanding of ion interactions in simulations.

This article explores the behavior of thin filaments in fluids using mathematical tools.

Exploring how cell shapes affect their movement and interactions in living systems.

Examining the roles of Prom1 and Ttyh1 in cell membrane dynamics.

This article discusses the importance of protein kinases like Abl1 in health and disease.

Investigating how the cytoskeleton responds to stress in cells.

Study reveals tradeoff between synaptic performance and energy efficiency.

AFMfit offers advanced methods for real-time analysis of biomolecules.

Proteins play a crucial role in sensing and altering cell membrane shapes.

This article examines ion movement in nerve cells and ultrasound's role in brain activity control.

Exploring how the disordered protein SERF binds to TAR RNA from HIV.

A fresh perspective on modeling non-equilibrium systems without traditional fitting methods.

Explore how obstacles influence the behavior of active nematic fluids.

Combining classical and quantum methods enhances understanding of spin-boson interactions.

Exploring how chromatin organization changes during DNA replication in eukaryotic cells.

Molecular motors influence chromosome behavior, organization, and gene expression in cells.

This article explores how cell migration is influenced by mechanical properties and vimentin.

This study explores how dynein motors impact ciliary oscillations and their efficiency.

Study reveals how confinement shapes defect behavior in active nematics.

This research links molecular and cellular scales in lipid membrane studies, highlighting GM1's role.

Exploring the role and stability of tubular networks in cellular functions.

Understanding how ER shape affects molecule movement and target encounters.

This article examines supercoiled DNA shapes using statistical mechanics and elastica models.

Exploring the movement and behavior of microorganisms in water.

Research offers insights into guiding epithelial cells using electric fields.

Examining how active particles cluster and evolve after disturbances.

Exploring vortex behavior on various surfaces and applications in science.

This article examines how mechanical forces affect cellular behavior and internal structures.

Examining how droplets interact with surfaces and impact biological processes.

New training method enhances stability and accuracy in molecular dynamics simulations.

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.