Latest Articles for Biology

This article breaks down integration and its applications in simple terms.

Mantra estimates metabolic reaction activity, offering insights into health and disease.

New modeling approach improves understanding of complex biological networks.

Learn about optimal control's principles, applications, and importance in various fields.

Exploring the impact of crossing changes on knot types.

Examining how active particles behave when consuming chemicals in two distinct regimes.

Researchers use speckle patterns to improve STED microscopy for clearer images.

A look at how random movement affects particles in various interactions.

New insights into protein complexes improve our understanding of cell biology.

Learn about Modified Patankar methods for solving complex material processes.

Recent research sheds light on spin glasses and their applications across various fields.

Explore how persistent homology reveals patterns in complex data shapes.

New methods improve how scientists predict protein-binding interactions.

Learn how eigenvalues and correlation matrices aid in data analysis.

Examining how active particles change droplet shapes and behaviors.

A novel method for estimating intrinsic volumes in various scientific fields.

TRENDY offers a new method for better understanding gene interactions.

This article explains key concepts in dynamical systems and their applications.

Exploring geometry's role in understanding biological dynamics and limit cycles.

This article discusses the importance of regular grammars in graph structures.

A look into periodic solutions and their stability in dynamical systems using Chebyshev polynomials.

This article examines how large molecules form complexes and change over time.

Exploring how platelets interact and form clots in the body.

Study shows frog embryos grow faster in low magnetic environments.

A new method uses images to study species’ traits and evolution.

Exploring how chaotic systems behave and their irreversibility impact across various fields.

Exploring the complex behaviors of materials with misaligned building blocks.

An overview of limit cycles in dynamic systems and their implications.

A look into how individuals in groups influence overall movement.

GraphAge utilizes DNA methylation data to accurately predict biological age.

A look at how biological models work together to reveal system interactions.

Study reveals unique movement patterns of T. Tubifex worms in complex settings.

A look into how links are classified using local moves and invariants.

New AI tools improve understanding of enzyme formations in biological cells.

BMP-9 and BMP-10 are crucial for blood vessel development and function.

SignedLouvain improves detection of communities in networks with positive and negative relationships.

Examining how embedded parts affect the mechanical properties of disordered networks.

Advanced techniques for capturing atomic-level images enhance material understanding.

This study reveals how E. coli adapts its movement in various spaces.

Investigating how disorder affects the relaxation process in various systems.