Research Articles
Cells in the Flow: Engineering the Perfect Mini-River to Decode Blood's Hidden Force
Breakthrough in vitro models mimic blood's fluid shear stress with unprecedented accuracy, unlocking treatments for atherosclerosis, thrombosis, and cancer metastasis.
The Genome Decoders: How Supercomputers Are Cracking Life's Code
Exploring how high-performance computing revolutionized genomics, from the Human Genome Project to modern simulations of molecular biology.
Beyond Test Tubes: The Digital Twins Predicting Your Body's Drug Journey
Explore how cutting-edge PBPK modeling is revolutionizing drug development and toxicology through digital simulations of human physiology.
The Genomic Decoders: How Data Science is Unlocking DNA's Deepest Secrets
Exploring how biological data science transforms genomic data into medical breakthroughs and evolutionary insights through advanced algorithms and AI.
Unlocking Resveratrol's Secrets: How Computers Are Decoding the "Fountain of Youth" Molecule
Discover how computational approaches like docking, CoMFA and machine learning are revealing resveratrol's molecular mechanisms as a potential fountain of youth compound.
The Wisdom of Crowds vs. Cancer: How an Open Science Revolution Predicted Breast Cancer Survival
How an open science challenge crowdsourced the world's brightest minds to develop a superior breast cancer survival prediction model using attractor metagenes.
Decoding the Cellular Maze: How AI Maps Protein Pathways to Unlock Disease Secrets
Explore how AI-powered automated pathway extraction transforms quantitative proteomics data into actionable biological insights for disease research.
The Protein Map of the Heart: Decoding Cardiac Health Through Proteomics
Exploring how proteomics revolutionizes our understanding of cardiac health through advanced protein mapping and analysis.
The Cheminformatics Revolution: How Digital Alchemy is Transforming Pharmaceutical Chemistry
Explore how cheminformatics is revolutionizing drug discovery through virtual screening, predictive modeling, and AI-driven molecular design in pharmaceutical chemistry.
Microbial Informatics: Decoding the Digital Language of Pathogens to Fight Disease
Exploring how microbial informatics is revolutionizing our fight against pathogens through genomic surveillance, AI-multi-omics convergence, and innovative tools.