Latest Articles for Biology

A look at how nonequilibrium states impact biological processes and interactions.

This technique allows real-time imaging and analysis of tiny structures.

A look into discrete weak KAM theory and its insights on dynamical systems.

Researchers introduce CoNECo, a dataset to identify protein complex names.

A look into how particle clusters form and impact cell function.

An overview of graph grammars and their applications in computer science and biology.

This article presents a method for simulating quantum systems in large environments.

Compressed indexes improve efficiency in genetic analysis and classification.

A new cell atlas for Daphnia reveals insights into gene expression and cell types.

Research explores machine learning techniques to study soft material behaviors.

Researchers investigate DNA methylation's role in aging processes and potential therapies.

ChatGPT aids computational biologists with programming tasks and data analysis.

Discover how ants form trails and navigate using pheromones.

Research connects discrete and continuous models to study pigment cell patterns in zebrafish.

A study on spanning subgraphs within hypergraphs focusing on minimum degree conditions.

CCfrag enhances AlphaFold's accuracy for complex protein structures.

SPACE reveals complex interactions in biological tissues for deeper insights.

This research enhances methods for identifying parameters in ordinary differential equation models.

Researchers develop improved tests for studying allele frequencies in populations.

How sensory neurons and support cells work together.

Delay differential equations are key for modeling systems with time delays.

A new pipeline improves the detection of antimicrobial peptides as antibiotic resistance rises.

A new method to control tiny particles using shaped vesicles shows promise.

Examining how cell shapes affect stiffness and deformation in various materials.

A look into the fascinating world of knots and their mathematical properties.

A novel approach helps understand how living things interact over time.

This study examines graph decompositions and their applications in various fields.

Research showcases how light can guide cell migration for medical advancements.

This study examines how rare events occur in systems with random walkers.

Exploring solutions, stability, and applications of fourth-order nonlinear parabolic equations.

DCAlign improves genetic sequence alignment speed and accuracy using Direct Coupling Analysis.

Discover how retina cells use energy for vision.

A study on how clusters grow in aggregation models, focusing on ballistic aggregation.

A new method improves accuracy in analyzing noisy biological sequences.

A new method enhances understanding of complex time series relationships.

A new approach that enhances image quality in microscopy.

This article examines how wormlike chains behave when confined and under tension.

A look into methods for aligning graphs and their importance in various fields.

This article explores how active particles behave in viscoelastic materials.

STARDUST improves calcium imaging analysis for better understanding of astrocyte behavior.