Latest Articles for Biology

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.

A groundbreaking quantum algorithm improves the search for attractors in gene regulatory networks.

SOFA integrates guiding variables to enhance multi-omics data analysis.

Explore how particles move randomly on flat surfaces.

Researchers utilize node2vec to analyze complex biological relationships across species.

Examining triangles in graphs reveals insights into structure and connectivity.

This article investigates how directionality influences Turing patterns in complex systems.

Exploring the fascinating world of fluorescence in living organisms.

This work examines how neural networks model autonomous systems with limited data.

Combining various data types enhances insights into biological systems.

Examining the similarities and differences between biological and machine learning circuits.

Learn about sampling methods to study large networks effectively.

A look at how collagen breakdown affects health and tissue remodeling.

Discover how protein language models aid in predicting protein behaviors and functions.

This study examines how blood proteins affect cognition in healthy adults.

Exploring how non-reciprocal mixtures reveal complex interactions in living systems.

Genesis aims to automate systems biology research with advanced robot scientists.

Discover the intriguing characteristics and significance of Kinetoplast DNA.

Explore how elastic curves evolve while maintaining area and energy efficiency.

Research improves understanding of mouse genetics and fills gaps in genome.

A new method enhances state variable identification in dynamical systems using physical knowledge.

Research reveals the impact of fluctuations on biological systems like p53.

Research delves into droplet behavior in dynamic environments, revealing complex interactions.

Learn about the hypergeometric distribution and its applications in statistics.

Exploring the impact of single-cell analysis on biological research and methods.

This article explores the behavior of graphs during edge retention randomness.

Learn how solvents influence the behavior of different substances.

A look at how past events shape future occurrences in random processes.

Deep learning models like U-Net are reshaping cell segmentation in microscopy images.

A new method to analyze changing shapes of tree-like structures over time.

ProteinGPT simplifies protein study through an interactive chat system.

New methods for designing hyperuniform materials based on biological cell arrangements.

Self-organization shapes systems, enhancing efficiency through energy flow and interactions.

Researchers analyze advanced models to predict biological outcomes using gene data.

Examining the role of connection patterns in neural networks and their impact on information encoding.