Latest Articles for Biology

Explore how point arrangements reveal unique properties in mathematics and beyond.

A comprehensive benchmark enhances evaluation of vision-language models for biological image analysis.

A novel approach enhances understanding of how populations synchronize their behaviors.

Exploring particle systems that simulate jumps and their stability in various fields.

Examining how partial resets affect growth and stability in complex systems.

Exploring how quantum computers can simulate complex particle interactions in reaction-diffusion systems.

Planar-Rips complexes reveal connections and structures in two-dimensional data.

New method enhances the analysis of jump-diffusion processes through neural networks.

This study examines resilience in biological feedback systems under chemical changes.

New methods improve understanding of protein behavior in response to mutations.

Examining the parallels between argumentation theory and biological network models.

SeaMoon offers a fresh method to analyze protein dynamics using only sequence data.

Explore the fundamentals and applications of graph theory and cut complexes.

A new method enhances point cloud feature extraction for various applications.

A look into the behaviors of Van der Pol-Duffing oscillators in various systems.

Exploring how quantum computing simulates molecular behavior in living organisms.

New algorithm enhances gene expression modeling using deep learning techniques.

Examining how chirality influences electron spin and its implications.

Exploring how cells interact on curved surfaces can enhance tissue engineering and understanding of biological processes.

Research reveals how proteins can be influenced by THz waves for medical applications.

A new filter enhances background clarity in biological imaging.

Examining the impact of transcription factors on gene expression in various organisms.

Researchers develop new methods to improve graph generation for various applications.

Exploring the complex behavior of electrolytes and ion interactions in concentrated solutions.

Research shows that pH changes may impact health and lifespan as we age.

Study reveals how simple rules lead to complex patterns in various systems.

Examining the importance of TbAUK3 in cell growth and DNA stability in T. brucei.

Explore the significance of planar graphs and their edge limits.

New methods refine molecular structure modeling from CryoEM data.

Research reveals insights into particle interactions in liquid-liquid phase separation.

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.