Latest Articles for Biology

Gelato combines graph structure and learning to improve link prediction accuracy.

A groundbreaking approach to analyzing biological data with zero counts and feature interactions.

Swarmalators blend individual rhythms with synchronized movement, revealing patterns in nature and technology.

Learn how identifiability affects biological modeling and scientific conclusions.

Discover the significance of tree structures in various scientific fields.

A look at cohomology, polynomials, and their significance in mathematics.

Discover how PepHAR improves peptide design for disease treatment.

Learn how keratinocytes behave and grow in different environments.

A deep learning approach enhances ligand identification in protein structures.

Exploring how oscillators synchronize in various systems.

Discover how AlphaFold3 and BETA enhance protein structure research.

Discover how NERDSS models particle interactions and reveals complex patterns in nature.

Discover the basics of knot theory and Khovanov homology.

Discover how invisible tweezers are changing science without touching particles.

Explore how active particles move and interact in their environments.

Research shows how men and women experience pain differently due to biological factors.

NucleoSeeker helps scientists curate high-quality RNA structure datasets for better predictions.

How transcription factors shape the fate of stem cells.

Explore how fractional differential equations shape our understanding of change and solutions.

Discover how different shapes interact through unseen forces.

MDD may accelerate biological aging, affecting mental and physical health.

Cryo-EM reveals hidden details in bacteriophage structures, advancing viral research.

Discover the complex neural network of the fruit fly's brain.

Discover how yeast adapt their proteins to survive heat stress.

Research on managing synchronized movement in swarmalators reveals new insights.

Learn how variation graphs improve our understanding of genetic diversity.

Examining the links between biological evolution and statistical methods.

A look into how spatial omics reveals cell interactions in their natural environment.

A new method revolutionizes how scientists segment and analyze cells.

Learn how SUICA transforms Spatial Transcriptomics data analysis.

K2R improves efficiency in indexing complex DNA sequence datasets.

Active particles navigate through rigid and flexible rings, influencing movement dynamics.

Discover the vital role of the glucocorticoid receptor in stress management.

Unraveling the complexities of species relationships through DNA analysis.

Discover how machine learning fast-tracks protein property predictions in drug development.

Discover the vital role of RNA folding in cellular processes and synthetic applications.

Amyloids can harm but also help in pigmentation processes.

inVAE transforms single-cell studies by integrating complex data for clearer insights.

Discover how min-sum clustering organizes data for better analysis.

Explore the fascinating process of brain formation and its intricate cellular interactions.