Research Articles
When Biology Meets Equations: Unraveling Life's Secrets at BIOMAT 2009
Exploring the groundbreaking interdisciplinary research presented at the BIOMAT 2009 International Symposium on Mathematical and Computational Biology
Cracking the Cell's Hidden Blueprint: Padhoc, the Detective on a Data Trail
How Padhoc, a new computational tool, is piecing together the secrets of life by reconstructing biological pathways from RNA-seq data.
Cracking the Code: How Proteins Read Our DNA
Revolutionary advances in computational design and experimental technologies are finally cracking the molecular code of protein-DNA recognition.
Unlocking the Cell's Secret Code: How Computers Are Learning to Read Biology
Discover how computers are learning to automatically read, interpret, and build executable models of biological processes through data standards, semantic annotations, and quality checks.
Beyond the Microscope: How Computers Design Life-Saving Drugs
Explore how QSAR computational models are revolutionizing drug discovery by predicting a drug's potential before it ever enters a lab.
Cracking the Cell's Code: The Digital Revolution in Understanding Life's Machinery
Explore how computational biology is transforming our understanding of cellular pathways through genomics, proteomics, and CRISPR technology.
Harnessing the Grid: The Supercomputer Revolution in Bioinformatics
Explore how Grid computing enables computationally intensive bioinformatics applications, transforming biological research through distributed computing power.
Molecular Architects: How Computer Modeling Decodes the Body's Structural Masterpiece
Explore how molecular modeling reveals the secrets of extracellular matrix proteins and their role in health and disease.
Catching a Key in a Lock: How Super-Slow-Motion Movies are Revolutionizing Drug Design
Discover how Enhanced Molecular Dynamics is transforming drug design by creating molecular movies that reveal drug-target interactions in atom-by-atom detail.
When Biology Meets Supercomputing: How HiCOMB Is Revolutionizing Life Sciences
Explore how HiCOMB bridges computational biology and high-performance computing to solve complex biological challenges through parallel processing and innovative algorithms.