Discover how blackgram plants develop resistance against Yellow Mosaic Disease through advanced transcriptome profiling and molecular defense mechanisms.
Breakthroughs in biochemical, computational, and live-cell imaging tools revolutionizing the hunt for CDK substrates, offering new hope for smarter cancer therapies.
Exploring the dual role of TopBP1 in DNA repair and hereditary breast cancer progression, with insights into therapeutic strategies targeting this critical protein.
Discover how a microscopic molecular switch in soybean's PHD-finger protein MS4 could revolutionize crop breeding and global food security.
Exploring how plant organelles like chloroplasts and mitochondria are transforming biotechnology with climate-resilient crops and sustainable solutions.
Explore how nutrigenetics and nutrigenomics are revolutionizing personalized nutrition by decoding the interaction between DNA and diet.
Discover how repetitive DNA drives sex chromosome evolution in plants, from Silene latifolia to papaya, revealing genomic 'junk' as a powerful evolutionary force.
Exploring the ancient KRAB zinc finger protein cluster on human chromosome 8q24.3 and its role in brain development, disease, and evolution.
Discover how association mapping revealed the genetic secrets behind sunflower branching architecture, enabling targeted crop improvement.
Discover how yeast transcription factors form regulatory hubs to coordinately control hundreds of genes, revealing insights into genomic organization and efficiency.