Research Articles
Ten Simple Rules for Creating Biomolecular Graphics
A comprehensive guide to creating effective biomolecular graphics with visualization techniques, tools, and best practices for scientific communication.
The Lab Partner That Learns: How AI is Revolutionizing Molecular Biosciences
Exploring the transformative convergence of AI and molecular biology, from CRISPR gene-editing to AI-guided experiments that are reshaping bioscience research.
The Secret Handshake Between DNA Strands: Unlocking the Power of End-to-End Attraction
Discover how DNA's end-to-end attraction shapes biological systems and enables revolutionary nanotechnology applications through molecular handshakes.
The Silent Sculptor: How Programmed Cell Death Shapes Our Lives
Explore the fascinating world of programmed cell death, from apoptosis to ferroptosis, and discover how this biological process shapes our bodies and health.
The Shocking Truth: How Electricity Rewires Our Cells and Molecules
Explore the cellular and molecular mechanisms behind electrical shock, from thermal denaturation to revolutionary discoveries about biological condensates.
The Molecular Biology of Human Arrhythmias: From Ion Channels to Clinical Practice
Explore the molecular basis of cardiac arrhythmias and how ion channel research is transforming clinical electrophysiology and personalized medicine.
The Molecular Mastermind: How GM-CSF Directs Your Immune Symphony
Explore the molecular physiology of GM-CSF, a critical cytokine that orchestrates immune responses, from cellular growth to inflammatory regulation.
Pan-Selective Aptamers: One Key to Unlock Many Small GTPases
Explore how pan-selective aptamers are revolutionizing molecular biology by targeting small GTPases, the cellular switches controlling vital processes.
The Digital Microscope: How Computer Science Revolutionized Molecular Biology
Explore how computer science and molecular biology have merged to transform our understanding of life at the molecular level through big data, AI, and computational modeling.
RAN1 Overexpression: How a Cellular Regulator Reshapes Plant Growth and Development
Exploring how RAN1 overexpression alters plant development, cell division, and hormone sensitivity in Arabidopsis and rice