Research Articles
The Molecular Scissors: How a Tiny Protease Controls Plant Growth
Discover how the SBT3.5 protease processes PME17 to regulate plant cell wall dynamics, root development, and immune responses in Arabidopsis.
Cracking Cancer's Code: How Evolutionary Trees Are Revolutionizing Cancer Research
Explore how computational phylogenetics is transforming cancer research by tracing tumor evolution through evolutionary trees and DNA analysis.
Cellular Control Rooms: How Gene Regulators Go Haywire in Colorectal Cancer
Explore how nuclear receptors and coregulators function as cellular control centers and their role in colorectal cancer development.
Our Inner Fossil Viruses: How Ancient Infections Shaped What It Means To Be Human
Explore how ancient HERV-K viral integrations in human DNA play crucial roles in our development and biology
The Invisible Armor: How Marine Bacteria Survive Our Sunscreen
Discover how marine bacteria develop genetic defenses against sunscreen chemicals through comparative genomics and evolutionary adaptation.
A Big Catch for Germ Cell Tumour Research
Exploring breakthroughs in germ cell tumour research, including immune profiling and innovative iNKT cell therapy for complete remission.
The Genetic Key: How Tiny DNA Changes Drive Insulin Resistance in PCOS
Exploring the hidden genetic variants that shape polycystic ovary syndrome, focusing on IRS-1 Gly972Arg and IRS-2 Gly1057Asp polymorphisms and their role in insulin resistance.
Viruses to the Rescue: The Genomic Secrets of Salmonella-Hunting Phages
Discover how genomic analysis of three new bacteriophages reveals powerful natural solutions for combating Salmonella in our food supply.
The Genetic Accordion: How Duplicated DNA Shapes Our Immune System's Versatility
Explore how segmental duplications create remarkable diversity in our immune system's antibody genes through genetic expansion and contraction mechanisms.
The Ribosome's Secret Code: How Tiny Molecular Tweaks Power Protein Production
Discover how conserved pseudouridines in Helix 69 of the ribosome act as molecular struts that stabilize protein synthesis and ensure translation accuracy.