Research Articles
The Junk DNA Revolution: How Repetitive Sequences Shape Plant Sex Chromosomes
Discover how repetitive DNA drives sex chromosome evolution in plants, from Silene latifolia to papaya, revealing genomic 'junk' as a powerful evolutionary force.
The Secret Keeper: How a Tiny Protein Mutation Unlocks Soybean's Hybrid Potential
Discover how a microscopic molecular switch in soybean's PHD-finger protein MS4 could revolutionize crop breeding and global food security.
The Silent War Within: How Blackgram Plants Outsmart a Deadly Virus
Discover how blackgram plants develop resistance against Yellow Mosaic Disease through advanced transcriptome profiling and molecular defense mechanisms.
The Cilia Architects: How RUVBL1 and RUVBL2 Power Our Cellular Antennas and Their Failure Fuels Disease
Exploring the critical role of RUVBL1 and RUVBL2 in cilia formation and how their dysfunction leads to ciliopathies
The Genetic Secrets of the Aleppo Pine: Decoding a Mediterranean Survivor
How scientists cracked the code of the drought-defying Aleppo pine tree and why it matters for our future forests.
Unlocking the Ocean's Enigma: How the Rough-Toothed Dolphin's Genome Reveals Secrets of Survival
Discover how chromosome-level genome assembly of Steno bredanensis reveals evolutionary adaptations for marine survival and conservation insights.
The Genome Architect's Secret: How a Tiny Protein Shapes Life's 3D Blueprint
Discover how condensin II protein determines the fundamental 3D architecture of genomes across 2 billion years of evolution, with implications for genetics and medicine.
Rewriting Genetic Destiny: How CRISPR Revolutionized Treatment for a Baby's Rare Metabolic Disorder
Breakthrough CRISPR treatment saves newborn with CPS1 deficiency through personalized gene editing in just six months.
The Tiny Titans: How Soybean Genetics Are Revolutionizing Your Dinner Plate
Discover how soybean genetics are transforming global food supply through breakthroughs in seed size and yield characteristics.
The Cellular Tightrope: How Chfr and Kif22 Dance to Prevent Genetic Chaos
Exploring the crucial interaction between Chfr and Kif22 proteins in maintaining genomic stability during cell division and its implications for cancer research.