Latest Articles for Biology

This study reveals how shapes transform into simpler forms while preserving volume.

Learn how cysts respond to pressure and their implications in medicine.

Research highlights iPLA2-VIA gene's role in Drosophila nervous system development.

Research reveals important patterns in diffusion on time-varying graphs.

A novel approach for clustering molecular dynamics data to improve drug design.

Study reveals how oscillators synchronize within random networks despite varying connections.

RNAinformer revolutionizes RNA design by enabling accurate sequence predictions for complex structures.

New approach estimates microbial growth without detailed tracking.

This article investigates absent scattered factors and their significance in word structure.

A new model enhances robot adaptability inspired by biological growth and response mechanisms.

BBATProt uses deep learning to improve protein function prediction accuracy.

An overview of continuous-time random walks and their applications in various fields.

A new method combines SINDy and Bayesian optimization to analyze DDEs efficiently.

ProtNote enhances predictions by combining protein sequences and text descriptions.

Examining how availability and capacity affect particle movement.

MAPred combines sequence and structure data for better enzyme function predictions.

Investigating additive martingales to reveal population dynamics over time.

This article discusses a new model for analyzing spatio-temporal data.

Study reveals how self-propelled particles affect clustering during phase changes.

An overview of key mathematical ideas and their practical uses.

Evaluating AI models for their ability to follow lab procedures.

Machine learning techniques offer fresh insights into unpredictable chaotic systems.

Learn how to estimate functions from data in dynamic systems using various models.

Research explores how life adapts to different gravity and magnetic conditions.

Highlighting the unequal focus on certain genes in scientific studies.

A look into how clusters form on scaffolds through templating aggregation.

Examining the difficulties in studying ancient proteins and potential solutions.

This article explores observability and conserved quantities in analyzing complex systems.

Research reveals connections between optimal transport and diffusion in porous mediums.

Psychological stress may lead to osteoporosis through specific molecular changes in the body.

This study uncovers how chemical reactions impact phase separation behaviors.

A fresh approach to learning bridged diffusion processes enhances accuracy and efficiency.

Study community formation in networks to gain insights into social behavior.

Study reveals dopamine’s role in attraction and avoidance behaviors in flies.

A fresh approach to modeling how clusters exchange and grow.

A detailed approach to estimating hyperuniformity in various natural systems.

CytoDiffusion offers a new approach to classifying blood cells and identifying anomalies.

Exploring how physical principles shape the biology of living organisms.

A new method improves analysis of geometric trees in various fields.

A new method enhances our ability to model complex biological interactions.