Latest Articles for Biology

Discover how MOTL improves multi-omics analysis to reveal biological insights.

This article presents a novel method for hierarchical clustering that utilizes dot products for better data relationships.

Explore how redirection shapes the structure of networks in various domains.

Exploring collective behavior through the study of self-propelled particles.

A novel approach improves the simulation of surface charge behavior in response to pH changes.

Chainsaw improves accuracy in identifying protein domains using deep learning techniques.

Research reveals how chitin influences respiratory and digestive health through enzyme activity.

A look into how Molecular Dynamics simulates atomic movement over time.

Exploring how diffusiophoresis sharpens Turing patterns in nature.

Research uncovers new details about vesicle behavior in biological processes.

A look into graphs, maps, corners, and symmetry in mathematics.

Probabilistic exponential integrators improve the handling of complex differential equations.

Exploring the roles and potential applications of circular RNAs.

Research sheds light on how quickly systems lose energy.

SHG holographic imaging improves speed and clarity in microscopy.

Research shows how Neural Cellular Automata can replicate and mutate patterns over time.

Machine learning enhances knot classification and localization in science.

Exploring the stability of equations that account for memory and delays.

Learn how a simple organism optimizes its search for food.

A fresh approach to understanding chemical reactions influenced by electric potentials.

Explore how disorder affects the movements of one-dimensional polymers.

PhosX enables researchers to infer kinase activity from phosphoproteomics data efficiently.

An exploration of shapes that minimize boundaries while enclosing volumes.

Research reveals how BLOC1S1 impacts immune cells and allergic responses.

Dense suspensions impact various industries and everyday life.

A novel method enhances the speed and accuracy of protein complex docking.

Recent work improves error management in numerical solutions for subdiffusion equations.

Research reveals lightning's impact on nitrogen availability for early life.

A look into the Steiner Tree problem and its applications across various fields.

New algorithms reveal improved methods for efficiently packing spheres in high-dimensional spaces.

Examining how patterns form in networks and their implications.

Using entangled photons improves measurements in ultrafast spectroscopy.

Exploring the significance and applications of minimal surfaces across various fields.

Examining how speed changes influence the behavior of active particles in groups.

A look at how spins behave in complex systems using specific models.

Shear-thickening suspensions change viscosity under force, impacting various industries and processes.

This study analyzes how particles move in response to their own chemical signals.

MicroRNAs play key roles in regulating brain cell development and gene expression.

A new method enhances PSF accuracy in single-molecule localization microscopy.

New findings reveal potential applications of synthetic oscillators in living systems.