Latest Articles for Biological Processes

Researchers optimize energy states to understand how materials change shape over time.

New methods enhance understanding of protein interactions for drug development.

Examining energy transfer in quantum systems and its implications for technology.

Calcium oscillations are vital for cell function and response.

This study looks at -hydrogen bonding between benzene, water, and ammonia.

Cytoplasm's properties and interactions impact cell function and structure.

Learn how defects shape the behavior of planar nematics and their applications.

A new approach to model timing in complex systems.

A new method improves molecular dynamics simulations by enhancing data sampling.

FLIMPA simplifies fluorescence lifetime imaging for better data interpretation.

Exploring the effects of noise and transcriptional bursting on gene networks.

This study highlights the influence of blood flow on endothelial cell organization.

Study of how a polymer reacts when pushed through a small channel.

The Completely Multipolar Model offers improved insights into water's molecular behavior.

Examining connections between reasoning and biological processes for innovative insights.

New techniques improve the analysis of genetic effects across multiple conditions.

Using Genetic Programming to enhance DNA sequence analysis and predictions.

Study reveals how proteins influence membrane shapes and cellular functions.

A new model offers insights into tumor behavior and treatment responses.

Alpha Flow-Lit improves protein shape generation, enhancing efficiency and accuracy.

A study of states of matter and their interactions over time.

New methods simplify the simulation of open quantum systems in quantum physics.

Researchers develop DiDBiT-TMT to improve protein synthesis analysis in memory studies.

Studying quantum and classical interactions in chemical processes using NEO theory.

A fresh approach to visualize complex networks effectively.

Exploring how cells respond to mechanical signals for various biological processes.

Bacterial DNA segregation is shaped by growth conditions and cellular dynamics.

Examining how resetting influences random searches in various environments.

This article explores the role of reaction networks in biological processes and sensitivity analysis methods.

A new framework enhances coarse-grained molecular simulations for researchers.

A study on the dynamics of feed forward networks and their analysis methods.

This study reveals how cells maintain movement despite barriers.

Exploring how cells move together and communicate during biological processes.

This study reveals unexpected movement patterns of colloids in solute gradients.

Researchers aim to model how cells grow and specialize.

Study uncovers a novel method of EV release in cells.

Examining how cells work together through mechanical features.

Explore the factors that influence bacterial shapes and their growth patterns.

New techniques enhance the performance of NV centers for precise measurements.

Study reveals connections between proteins and non-genetic health risk factors.