Research Articles
Unlocking the Protein Dance: How Computer Simulations and Network Theory Are Revealing Biology's Secrets
Explore how molecular dynamics simulations and graph theory combine to reveal the secrets of protein complexes and their dynamic functions in biology.
The Cell's Tango: How mRNA Stops a Protein Clog Before it Starts
Discover how mRNA structure controls protein phase separation and prevents neurodegenerative diseases like Huntington's through liquid-liquid phase separation mechanisms.
The Ammonia Highway: How a Tiny Protein Keeps Cells Alive
Discover how the AmtB protein performs a life-sustaining magic trick, converting toxic ammonium ions into harmless ammonia gas through molecular dynamics simulations.
Unveiling the Invisible Dance of Molecules: The RA 2DIR Breakthrough
Discover how Relaxation-Assisted 2DIR spectroscopy revolutionizes molecular imaging by breaking distance barriers in molecular interaction studies.
The Invisible Lasso: How We Fish for Crystals from Brine
Explore the fascinating chemistry behind soluble salt flotation - how scientists use microscopic bubbles and molecular lassos to extract valuable minerals from brine.
The Science of Engagement: How Interactive Exhibits Are Revolutionizing Public Science
Explore how interactive science exhibits use psychology and neuroscience to create engaging learning experiences that transform public understanding of science.
The Two-Faced Truth: Why Science Needs to Challenge Itself
Explore how bias probing and challenging scientific assumptions leads to more reliable discoveries through compelling experiments like the 'Musical Rats' study.
The Dot Detective: A Simple Paper Test for Fungal Gene Sleuths
Discover how the dot blot assay revolutionized genetic engineering verification in Neurospora crassa with this simple, elegant paper test method.
The Molecular Traffic Jam: Unpredictable Flows in the Nano-World
Discover how scientists are finding that fluids in tiny channels behave unpredictably, with intermittent currents and anomalous diffusion patterns.
Bridging the Quantum Divide: How Tight-Binding Molecular Dynamics Simulates Reality
Explore how Tight-Binding Molecular Dynamics bridges quantum accuracy and computational feasibility in materials science simulations.