Latest Articles for Biology

Exploring how shapes connect in unique structures impacts various scientific fields.

An approach to simulate randomness in biological processes using advanced mathematical methods.

Examining how modifications affect network behavior and performance across various systems.

New tools enhance shape analysis for evolutionary insights.

An overview of dynamic ASEP and its key concepts.

Exploring the significance and applications of hitting subgraphs in various fields.

Exploring the significance of positive solutions in polynomial equations and their applications.

Exploring the complexities of nonlinear equations and their real-world applications.

An overview of boundary-driven zero-range processes and particle behavior on graphs.

New methods inspired by nature help approximate hard problems in computing.

Exploring how active particles behave under confinement and fluid flow.

Exploring how TaG-EM reveals gene behavior in fruit flies.

Study reveals importance of initial conditions in species competition.

A novel approach makes it easier for artists to simulate fungal growth.

Explore how topological communities enhance our understanding of complex networks.

Researchers study biological networks and their importance in living systems.

A look at up persistent Laplacian in analyzing complex datasets.

A look at how amino acids evolve and their implications for life.

A new barcode method enhances data analysis by capturing geometric features.

Exploring correlations and dynamics in chaotic systems with neutral centers.

New AI tools streamline cryo-EM data processing for faster discoveries.

This study presents methods for building evolutionary networks through quarnets.

New research explores how biological aging affects health outcomes over time.

TomoPicker simplifies finding particles in Cryo-ET images, reducing manual work significantly.

DiSPASO helps scientists study protein interactions in living cells.

HyperSteiner presents a more efficient method for calculating Steiner Minimal Trees.

Neural Spacetimes offer innovative representations for analyzing directed graphs in various fields.

Innovative techniques improve labeling of single-cell profiles in developmental biology.

Morse-Smale complexes enhance data analysis in various scientific fields.

C. elegans worms show smart behaviors in choosing safe foods.

RBNs model how biological systems evolve over time through simple interactions.

Discover how fruit fly intestines heal themselves through specialized cells.

Exploring positive solutions and their properties in semilinear elliptic equations.

Examining how soft polymer mixtures influence chromatin structure and behavior.

A look at how the Swift-Hohenberg equation reveals patterns in nature.

Exploring chimera states and their significance in nature and technology.

This article examines how noise alters behavior in high-dimensional dynamical systems.

Explore how microbes thrive together and their significance in ecosystems.

Discover new methods for separating and measuring chiral particles.

Explore the link between tree structures, diameter, and eigenvalues in mathematics.