Research Articles
Cracking the Genome's Library: How AI is Organizing Life's Blueprint
Discover how Hierarchical Multi-Label Classification is revolutionizing functional annotation of orthologous groups in genomics
The Genomic Treasure Hunt: How Computers Learned to Spot tRNA Genes
Discover how algorithms revolutionized tRNA gene identification in genomic DNA, speeding up discovery from days to minutes.
Decoding Life's Blueprint: How Microarray Data Analysis Is Revolutionizing Medicine
Explore how microarray data analysis is transforming medicine by revealing molecular signatures of disease and enabling personalized treatments.
Cracking the Genetic Code: How Scientists Spot Vital Patterns in Our DNA
Discover how multiple sequence alignment helps scientists identify conserved, unstable, and rapidly mutating regions in DNA to understand evolution and track diseases.
Cracking the Viral Code: How Computer Science Is Predicting Pandemic Threats
Discover how feature selection methods are helping scientists identify genetic determinants that allow RNA viruses to jump between species, potentially preventing future pandemics.
The Secret Shapeshifting of Proteins: Why Molecular Teams Matter in Your Cells
Explore the fascinating world of protein oligomerization and how molecular teams within cells impact health, disease, and therapeutic development.
The WikiPathways App for Cytoscape: How Open Peer Review Built a Bridge for Biological Discovery
Explore how the WikiPathways App for Cytoscape transforms biological pathway analysis through open peer review and collaborative science.
Cracking Biology's Code: How the Weighted True Path Rule Predicts Gene Function
Discover how the Weighted True Path Rule algorithm revolutionizes gene function prediction by navigating biological hierarchies with precision.
Unfolding Life's Mysteries: How Graph-Based Methods Are Revolutionizing Protein Science
Explore how graph-based computational methods are transforming protein classification and orthology inference in the era of big data biology.
The Secret Language of Genes: From What They Are to How They Work Together
Discover how gene ontologies transformed functional genomics and revealed the intricate dependencies between biological processes through computational analysis.