Latest Articles for Biology

New methods improve understanding of gene interactions and cancer types.

Exploring how organisms expel fluids for survival and innovation.

A look at dimer models and their applications in various scientific fields.

This study examines the unique behavior of Janus colloids in mixtures and their interactions.

This model aids in analyzing complex datasets across various fields.

Study reveals how DNA methylation impacts health from birth to childhood.

A look into how information theory enhances our understanding of disease spread and populations.

New techniques allow precise control over tiny particles using light.

A look into the alt-Tamari lattice and its implications for combinatorial structures.

Examining how droplets interact with surfaces and impact biological processes.

A look into the relationship between groups, Poincare exponents, and their applications.

This article explores how animals perceive and process various smells.

This article explores how tracers move within polymer materials and its implications.

A new method to assess synchrony in groups with limited observations.

Explore how functional differential equations model systems with delays across various fields.

An overview of eigenvalue problems in fractional Laplacian and their applications.

A method to enhance diffusion models for generating high-quality data efficiently.

Discover how mathematical models explain phase transitions in materials and biological systems.

Understanding how neutral functional differential equations aid in studying material flow.

A look at how noise impacts systems through Markov chains.

scGFT offers a solution for creating synthetic single-cell RNA data efficiently.

A look at how quantum mechanics and classical physics intersect in large objects.

Research sheds light on how active forces impact crystal and glass dynamics.

Research introduces new models for measuring elastic properties of biological tissues.

Explore how transformation semigroups apply across various scientific disciplines.

Exploring blood drop evaporation and its implications in forensics and medicine.

Explore unique behaviors of particle systems and their periodic interactions.

Deep learning model enhances image quality in thick biological samples.

Explore the complex structure and function of elephant trunks and their brains.

New methods improve understanding of knots in open strands like DNA.

A new approach to combine data from separate biological measurements.

A look into how Boolean networks model complex systems and their dynamic behaviors.

A look into how particles spread in various systems.

DGEB offers a new method for evaluating biological sequence models.

A study on how resetting oscillators can promote system synchronization.

Examining how excitons impact DNA's energy dynamics and genetic stability.

Examining how positive Lur'e systems maintain stability under various conditions.

Examining how external forces affect solute movement in various materials.

New method improves detection of genetic influences on gene expression.

Explore how coloring impacts mathematics and its real-world applications.