Latest Articles for Biology

Examining how past movements shape the behavior of particles in diffusion.

Explore the fundamental concepts and applications of graph theory in various fields.

Research reveals how NOMPC channels respond to mechanical forces.

Learn about microswimmers and their unique interactions with fluids and surfaces.

Research examines how age influences protein levels and DNA methylation.

Examining the complexities of single cell analysis and gene expression patterns.

A look at how patterns form in bacterial populations.

Learn how bifiltrations enhance data analysis by examining two parameters simultaneously.

This research focuses on liquid-liquid phase separation in cells and its implications.

HuBMAPR simplifies data access for researchers studying human biology.

Researchers enhance understanding of scleral mechanics through direct fiber modeling techniques.

Exploring knotoids and linkoids through the mock Alexander polynomial.

Research reveals the complexities of protein evolution and the role of epistasis.

A look at how shape affects particle movement and the role of resetting.

This article examines how clustering influences Turing instability in complex networks.

New models improve predictions in complex systems.

An analysis of aggregation-diffusion equations in modeling group interactions and movements.

New methods enhance accuracy in predicting antibody-antigen interactions.

This article examines how tiny creatures create fluid movement patterns through synchronized interactions.

This article explores the behaviors of filaments influenced by external forces.

Understanding the complex interplay between genetics and environmental factors in health.

A study of how reflection complexity reveals pattern behaviors in sequences.

A fresh mathematical framework for systems with varying dimensions.

Research reveals unique properties of water in carbon nanotubes, impacting technology.

A look into the structure and properties of random geometric graphs.

Researchers leverage light to separate chiral particles for improved applications in chemistry and medicine.

A study on targeted chemical release enhances knowledge of protein reactions in living organisms.

New methods improve protein structure analysis and classification accuracy.

This study reveals new methods for accurate time estimation using stochastic processes.

Explore the relationship between metric structures and ultracategories in mathematics.

A look into how changing connections influence oscillators in various systems.

Introducing a model for analyzing complex Markov jump processes with noisy data.

A look into how oscillators achieve synchronized behavior through the Kuramoto model.

This study reveals how proprioceptors aid movement in insects using computer models.

A new method makes causal relationship analysis more efficient and manageable.

Tumor microenvironments hinder drug effectiveness by limiting oxygen supply.

This article examines behaviors in multiagent systems and methods to control them.

An overview of symplectomorphism neural networks and their importance in Hamiltonian systems.

New technique improves performance of soft X-ray free electron lasers.

Examining the role of triangles in graph structures and their implications.