Latest Articles for Biology

A look at how information theory measures and processes data.

Learn how NPRK methods improve solving ordinary differential equations.

Exploring the organized movement of active materials in nature and their implications.

An overview of how diffusion affects entropy and system behavior.

A new model reveals how cells move and interact, impacting health research.

Introducing a framework for studying complex biological interactions using optimal transport theory.

Exploring how asexual flatworms thrive despite reproduction challenges.

New research sheds light on how genetic changes affect evolution.

A look into how active particles move and interact.

Study reveals how memory influences outcomes in competitive events across various fields.

Revolutionary computing method transforms biological data analysis and interpretation.

Research highlights the importance of stem cells in regeneration among invertebrates.

New insights show isolated fixed points complicate control in biological systems.

Examining how water density changes near surfaces that repel it.

Exploring the applications and algorithms of minimal spanning arborescences in various fields.

A novel method for accurate population size estimation with limited data.

A closer look at non-local effects in mathematical modeling.

Investigating self-propelling particles and their cluster behaviors.

Mapper visualizes protein pathways, aiding drug discovery and food science.

A look into simplicial complexes and their impact on network science.

Hyaluronic acid is key for tissue support and hydration.

RiNALMo is an advanced RNA language model for predicting RNA structures and functions.

Research reveals patterns in how amino acids are utilized by different species.

A look into how directed simplicial complexes reveal complex interactions.

A new method improves causal learning despite missing data and cyclical relationships.

Exploring the unique structures and applications of cluster algebras in various fields.

Exploring how two proteins influence melanoma's growth and invasiveness.

Learn how k-primitivity enhances our understanding of matrix interactions and real-world applications.

Research on droplets reveals how living materials respond to their environments.

New methods improve understanding of gene interactions and cancer types.

Exploring how organisms expel fluids for survival and innovation.

A look at dimer models and their applications in various scientific fields.

This study examines the unique behavior of Janus colloids in mixtures and their interactions.

This model aids in analyzing complex datasets across various fields.

Study reveals how DNA methylation impacts health from birth to childhood.

A look into how information theory enhances our understanding of disease spread and populations.

New techniques allow precise control over tiny particles using light.

A look into the alt-Tamari lattice and its implications for combinatorial structures.

Examining how droplets interact with surfaces and impact biological processes.

A look into the relationship between groups, Poincare exponents, and their applications.