Latest Articles for Biology

This new model improves diffusion predictions and analysis through energy dynamics.

Discover how proteins influence crossover events in meiosis and their impact on fertility.

DGRPool centralizes Drosophila phenotyping data for enhanced research efficiency.

Examining chaotic behavior through transversal homoclinic points in dynamical systems.

This study presents a method to reduce data needs in dynamic system modeling.

Scientists enhance protein study in worms with a simpler technique, OFIC processing.

A look at the frozen version of random graphs and its implications.

Explore the random motion of Brownian particles and their significance in science.

Analyzing particle systems with graphons for improved predictions in complex networks.

New methods improve integration of diverse biological data from single cells.

Research sheds light on ZIP proteins' role in transporting essential metals.

A look at how patch dynamics improves multiscale modelling techniques.

Exploring how quantum computing aids in predicting mRNA structures for medical advancements.

A look into how specific operators function with boundary conditions in various applications.

This study examines how different methods impact species tree estimations.

A multi-modal approach enhances gene expression predictions in biological research.

This article discusses innovative methods for discovering conservation laws in various scientific fields.

Analyzing how particles move in confined areas reveals important scientific insights.

This article presents a fresh perspective on analyzing Markov chains through distribution transformers.

New methods improve understanding of molecular interactions and behaviors.

A look into how plant and animal traits change over time.

D-LIM model connects genetic mutations, traits, and fitness for improved predictions.

HEST-1k provides a detailed dataset linking gene activity and tissue images for research.

Research shows how stem cells can enhance healing and slow aging.

A fresh approach reveals how tiny particles interact under various conditions.

A look at the need for inclusivity in biology education studies.

This article explores how heavy and light particles interact with changing energy surfaces.

A new method enhances covariance estimation in Gaussian processes with adaptive thresholding.

A look into how frequency response helps study biochemical networks.

New methods improve imaging of cold-adapted life forms.

Exploring mathematical frameworks for understanding mass movement in various systems.

Research reveals key factors affecting wound healing and treatment options for chronic wounds.

A look at how impure simplicial complexes improve understanding of complex agent interactions.

We analyze numerical methods for the Cahn-Hilliard equation on changing surfaces.

A look into how polyominoes interact and develop through various processes.

How noncoding DNA shapes the traits of C. inopinata.

WENDY simplifies gene regulatory network inference using minimal time-point data.

Study introduces a model accounting for mutation interactions in protein evolution.

Explore how chromatic numbers behave in dense random graphs and their implications.

ConStruct framework enhances graph generation by integrating domain knowledge for practical applications.