Latest Articles for Biology

Examining the complexities of drawing multiple graphs without overlaps.

A look at how systems interact with their environments through agency.

A look into active and passive microrheology and their significance.

Exploring synchronization effects in complex networks and their real-world applications.

A look at graphs and their connections to association schemes.

Explore the importance and challenges of intrinsically disordered proteins in cellular functions.

Study of aggregation processes reveals insights into mass distribution and clustering dynamics.

Examining how randomness can improve search strategies in various fields.

Exploring how chemical microswimmers move in three dimensions and their applications.

A guide to using Hidden Markov Models for analyzing time-dependent data.

Researchers examine decay to enhance understanding of fossilization processes.

New method IDBindT5 enhances prediction of binding sites in disordered proteins.

Research reveals complex behaviors of particles in disordered systems.

FlyBox helps researchers observe and analyze fruit fly activity efficiently.

A look at protein interactions and their role in understanding the Omicron variant.

Study of active systems reveals complex behaviors in particles and biological structures.

A new approach combines metrics for clearer insights in environmental research.

Insects use unique brain patterns for effective movement and direction.

This article explores how hydration impacts snail mucus and its potential applications.

ProteinCLIP enhances protein analysis by combining sequences and textual descriptions.

An overview of synaptic plasticity and the various models used to study it.

A new method improves understanding of changing relationships in data.

Exploring how environmental stress influences the evolution of multicellular organisms.

A look into how Fréchet distance assesses curve similarity across various fields.

A new method for counting graphlets in changing networks.

Study of contact geometry in energy dissipation across various fields.

LiftOn improves genome annotation by merging DNA and protein alignment methods.

A new method for simulating surfactant interactions with dynamic bubbles.

Examining how cooperation emerges from individual behaviors in groups.

Examining how blood cells differentiate and their roles in health and disease.

A new method simplifies the study of oscillator synchronization dynamics.

A look into the significance and methods of Fixed Cardinality Graph Partitioning.

UQSA helps researchers quantify uncertainty in biological models and analyze sensitivity.

Studying energy interactions in unique geometric spaces reveals important behaviors.

Study shows how protein structures and sequences evolve over time.

A new method improves material separation using multi-energy X-ray techniques.

A new framework reveals how information dynamics shape system behavior over time.

Exocrine glands play key roles in animal interactions like mating and defense.

This research examines how morphogens influence gene expression during fruit fly embryogenesis.

A model revealing how animals and cells behave collectively.