Latest Articles for Biology

Exploring how biological materials change shape and behave under stress.

A novel method reveals changes in gene regulation using RNA sequencing data.

A new method enhances local variable selection for better scientific insights.

Innovative techniques enhance analysis of stochastic differential equations and their uncertainty.

Exploring how noise can drive system transitions through innovative computing methods.

Breather solutions reveal complex behavior in nonlinear systems through unique oscillating patterns.

Exploring mathematical modeling for understanding systems across different scales.

Explore the Potts model's role in phase transitions and material behavior.

This article discusses methods to recover lost information in hypergraphs from simpler graph representations.

An overview of intrinsic and extrinsic criticality in biological systems.

A method for analyzing particle behavior in complex systems with multiple species is presented.

A look at semi-confirmatory factor analysis and its advantages in data analysis.

Research reveals how plasma proteins can indicate organ aging and health risks.

A new method improves the prediction of molecular shapes using machine learning.

A new method transforms how we study evolving surfaces.

Developing agents that mimic living organisms using homeostatic principles.

Crowdsourced data and machine learning enhance RNA structure prediction.

Introducing a new method for faster network analysis and reconstruction.

Researchers develop RNA structures to create functional synthetic cells.

Study reveals how active Janus particles cluster and relate to biofilm formation.

Study explores how polymer solutions affect biological processes through phase behavior.

A study of how delayed oscillators affect their coupled counterparts.

Discover how protein engineering advances enzyme performance using machine learning.

Researchers reveal a simplified model linking spring networks and material behavior.

Study reveals how brain regions relate to social and ecological challenges in primates.

Investigating how Svep1 protein affects lung formation in mice.

New methods improve our understanding of how cells interact in various biological contexts.

This article examines how different solvents influence molecule behavior and shape changes.

Unraveling the concept of resistance distance in connected networks.

A study on how groups form and behave using mathematical models.

Scientists use advanced imaging to study materials at atomic levels.

Researchers develop faster mScarlet variants for improved visibility in worm studies.

A look at how particles move in unexpected ways.

PhysioFit simplifies metabolic analysis for researchers of all skill levels.

CellTransformer helps scientists analyze large datasets of tissue and organ structures.

Examining how two-body and three-body interactions affect oscillator synchronization.

Examining how cabling operations influence knot complexity and crossing numbers.

This article examines how skin reacts to stress and its implications for health.

Exploring the random cluster model in networks and its implications.

An overview of the Tutte polynomial and its application to greedoids.