Research Articles
The Hidden Messenger: How a Tiny Particle in Our Bloodstream Controls Colon Cancer's Deadly Secrets
Groundbreaking research reveals how exosomes carrying MEF2C protein activate CD36 in cancer cells, driving colorectal cancer progression and offering new therapeutic targets.
Unlocking the Invisible: How Solution NMR Reveals Secrets of Giant Biomolecules
Discover how modern NMR techniques break size barriers to study massive biomolecular complexes with atomic resolution
The Double Helix and the Digital Frontier: Computational Biology's Rise in Malaysia
Exploring Malaysia's journey in computational biology, its challenges, opportunities, and groundbreaking research in precision medicine and biodiversity.
The Hidden Genetic Hijack: When Gene Drives Change Their Target
Exploring the phenomenon of retargeting in endonuclease-based gene drives and its implications for genetic engineering
The Invisible Battlefield: How Basic Science Uncovers Pathogens' Secret Weapons
Exploring how basic science research reveals the mechanisms of pathogenesis and leads to medical breakthroughs.
The Spatial Omics Revolution Gets Smarter: Meet SMODEL, the Ensemble Maestro Mapping Tissue Complexity
Discover SMODEL, a revolutionary spatial omics algorithm that integrates multi-omics data to reveal tissue complexity with unprecedented clarity.
The miR-21 Trap: How a Molecular Bait Is Revolutionizing Cancer Therapy
Discover how AC1MMYR2, a novel inhibitor of miR-21 biogenesis, is transforming cancer therapy by targeting the most consistently overexpressed oncomir in human cancers.
Decoding CML's Genetic Secrets: How a Blood Test Could Predict Treatment Success
Exploring how pretreatment gene expression signatures can predict treatment success in Chronic Myeloid Leukemia (CML) patients before therapy begins.
The Silent Revolution: How RNA Interference is Rewriting Medicine's Future
Explore how RNA interference (RNAi) is transforming medicine with Nobel Prize-winning technology that silences disease-causing genes at their source.
The Circular RNA Revolution: How a Tiny Ring Reshapes Our Brain
Discover how circular RNAs, particularly Cdr1as, play crucial roles in brain function through miRNA regulation and synaptic activity.