Latest Articles for Biology

A study on how geometric conditions affect steady states in reaction-diffusion systems.

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

A look into how Markov processes influence complex systems over time.

New algorithm improves efficiency in matching colored points in geometry.

Explore the role of invariant algebraic curves in polynomial mathematics.

A look into how symmetric homology studies knots and their relationships.

Examining how traits evolve at different speeds in species.

Discover how PPIretrieval improves understanding of protein interactions.

A look at the significance of reaction-diffusion problems in science and engineering.

A look into how we determine parameter values in differential equations.

Learn about cellular automata and their role in modeling complex systems.

This article delves into the dynamics of self-moving particles and their complex interactions.

Exploring how the q-TIP4P/F model helps understand water's unique properties.

Investigating how gut health influences sleep patterns and recovery during illness.

Research reveals insights into the flexibility and function of the PHL4 transcription factor.

New methods reduce computation time for solving complex equations.

Study reveals surprising fluorescence in non-aromatic compounds, highlighting structural impacts.

Exploring group movement in nature and robotics through mathematical modeling.

Research explores how aging affects our body's natural rhythms.

Learn how to make parameters identifiable in ODE models.

Research shows how magnets can guide particles for medical applications.

Examining relationships in graphs and their homology properties.

Research sheds light on how proteins cluster in biological systems.

Synthetic cells mimic life functions, revolutionizing fields like medicine and biotechnology.

A new method enhances sampling efficiency for complex probability distributions.

A look at how particles interact to create collective behavior.

A look at deep learning methods in drug discovery.

Discover the complexity of relationships in higher-order networks and their applications.

Research on droplets reveals insights into their behavior in confined areas.

A fresh approach offers efficient solutions for the vertex cover problem in graphs.

This study examines how to reconstruct points based on limited distance information.

A look into challenges of making predictions in complex dynamical systems.

Lingo improves DNA analysis through advanced language model techniques.

Zmiz1 is essential for the growth and stability of blood vessels.

New method streamlines network rewiring, enhancing research efficiency and insights.

Researchers propose an objective method for studying complex branching networks in various biological systems.

Exploring how features in biology evolve over time to predict system behavior.

Research reveals complexities in modeling ectotherm traits based on temperature.

Study of swimming organisms and fluid motion in confined spaces.

Exploring how resetting one variable affects particle behavior in dynamic systems.