Latest Articles for Biology

DigestR simplifies the study of protein breakdown, aiding research across various fields.

An overview of how tissue sheets grow on surfaces and in free space.

A look at new methods for predicting molecular interactions and drug binding.

This study evaluates scoring functions for predicting protein interactions based on physical features.

Exploring new methods for solving nonlocal interactions in various fields.

A look into how evolutionary games shape behavior and strategies across various fields.

New machine learning methods improve predictions of allosteric sites in proteins.

A study on how bacteria grow and interact with nutrients using mathematical models.

A look into how shapes can be transformed and studied through maps.

Examining how resetting affects particle escape times in confined channels.

Research reveals how amino acid transporters affect fish health and diet.

This study uses mathematical modeling to analyze cell movement through the extracellular matrix.

Examining how cancer cell mutations change over treatment.

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

Scientists are using light to move tiny particles in innovative ways.

A look into the unique behaviors of active fluids and their applications.

Exploring how organisms learn to ignore repeated stimuli.

Research highlights PERM1's importance in heart function and its link to heart failure.

Introducing a new method for predicting DNA-binding sites in proteins using deep learning.

SNARE proteins are vital for transmitting signals between nerve cells.

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.