Research Articles
The Cellular Architects: How Tiny RNA Molecules Build Our Skeleton
Discover how microRNAs guide stem cells to become bone-forming cells in this fascinating exploration of osteogenic differentiation.
The Body's Hidden Arsenal: How Our Own DNA Fights the Flu
Discover how bioinformatics reveals how human microRNAs target and combat the H7N9 influenza virus through computational analysis and molecular biology.
Cracking the Cell's Secret Code: How Scientists Decode Tiny RNA Messages
Discover how bioinformatics helps scientists analyze microRNA sequencing data to understand cellular regulation and disease mechanisms.
The Tiny Traffic Cop in Our Cells: How a Micro Molecule Could Halt Cancer's Growth
Discover how Bta-miR-145, a tiny microRNA molecule, shows promise in slowing cancer growth by regulating the IGF1R-PI3K-Akt/mTOR signaling pathway.
The Rise and Fall of a Discovery: The Story of microRNA-322 in Alzheimer's Disease
Explore the fascinating story of the retracted microRNA-322 study that claimed to link this molecule to Alzheimer's disease pathology through tau phosphorylation and BDNF regulation.
The Silent Regulators: How Computers Decode the Secrets of MicroRNA
Discover how computational biology helps identify microRNAs, the tiny genetic regulators that control gene expression in living organisms.
Decoding the Silent Signals: How MicroRNA Profiling is Revolutionizing ALS Diagnosis
Explore how microRNA profiling is transforming ALS diagnosis through next-generation sequencing, biomarker discovery, and therapeutic applications.
Cracking Breast Cancer's Secret Code: How Tiny Molecules and Big Data Are Revealing New Clues
Discover how microRNAs influence breast cancer's deadly spread through epithelial-to-mesenchymal transition (EMT) and the role of bioinformatics in decoding this cellular identity crisis.
Silent Saboteurs: How Tiny RNAs Fuel the Potato Blight Pandemic
Exploring the role of microRNAs in the molecular warfare between potato plants and Phytophthora infestans, the pathogen behind potato late blight.
How a Tiny Molecule from Plants Could Revolutionize Gut Health
Discover how plant-derived microRNA MIR167e-5p inhibits intestinal cell proliferation by targeting β-catenin, opening new therapeutic possibilities for gut health and cancer treatment.