Latest Articles for Biology

Graphcodes enhance topological data analysis for better insights in complex datasets.

Phenotypes reveal traits of organisms and aid in various scientific studies.

Explore the basic principles and applications of thermodynamics in everyday life.

Exploring how simple parts come together to form complex structures.

A detailed study on the impact of aging on mitochondrial energy production.

Learn about planar graphs and their significance in various fields.

Discover how KMC helps analyze particle movement in biological systems.

This article discusses how long-term memory affects rare event timing.

This study examines how nanoparticles enter cells from one direction.

Researchers develop sulfonated dyes for precise protein labeling on cell surfaces.

A look into how regions are covered by expanding points over time.

qFit-ligand improves understanding of ligand shapes and protein interactions.

A look into colored links and their key invariants through matrix calculations.

An overview of how active particles respond in harmonic traps under various conditions.

Exploring energy use and dissipation in calcium and neuronal oscillations.

This study focuses on how particles diffuse near biological cells.

New method enhances analysis of elongated and flattened particle shapes.

Introducing a novel approach to identify hidden factors in biological data.

Discover how ZFHX3 influences circadian clocks in mammals and behavior.

A method to improve microscopy image analysis and sample preparation efficiency.

New diet formulations enhance growth and survival in fruit flies, illuminating nutrition's role in health.

Study reveals how zebrafish Rh2-1 and Rh2-4 opsins absorb light differently.

This article simplifies the complex world of quantum systems.

cfDNA UniFlow streamlines the analysis of circulating DNA for better health insights.

This article examines particle behavior in various flows and its implications.

New benchmark aids in predicting enzyme behavior using machine learning.

Exploring how protein sequences impact aggregation and their connection to diseases.

Research reveals how phosphorylation affects protein structure and function.

A novel approach reveals the role of higher-order interactions in protein function.

Explore how point arrangements reveal unique properties in mathematics and beyond.

A comprehensive benchmark enhances evaluation of vision-language models for biological image analysis.

A novel approach enhances understanding of how populations synchronize their behaviors.

Exploring particle systems that simulate jumps and their stability in various fields.

Examining how partial resets affect growth and stability in complex systems.

Exploring how quantum computers can simulate complex particle interactions in reaction-diffusion systems.

Planar-Rips complexes reveal connections and structures in two-dimensional data.

New method enhances the analysis of jump-diffusion processes through neural networks.

This study examines resilience in biological feedback systems under chemical changes.

New methods improve understanding of protein behavior in response to mutations.

Examining the parallels between argumentation theory and biological network models.