Research Articles
The Green Proteome: How Scientists in 2005 Decoded the Hidden World of Plant Proteins
Explore how plant proteomics databases in 2005 revolutionized our understanding of plant proteins and laid the foundation for modern agricultural research.
The Parental Imprint: How Your Chromosomes Remember Where They Came From
Explore the fascinating world of genomic imprinting and how DNA methylation creates parental memories in our chromosomes that shape development and health.
DNA Microarrays: The Decoding Engine Powering a Chemical Biology Revolution
How scientists are using DNA barcodes to find needles in a molecular haystack through DNA-encoded chemical libraries (DECLs).
The Hidden Hitchhikers: How Bacterial DNA Infiltrates Our Cancer Genomes
Discover how bacterial DNA integrates into human cancer genomes, challenging our understanding of cancer biology and opening new frontiers in treatment.
How Genomic Imprinting Controls the Igf2 Gene Through Matrix Attachment
Discover how genomic imprinting regulates Igf2 gene expression through matrix attachment regions and chromatin architecture.
Nature's Recipe for Pain and Fever: Unraveling the Evolutionary Secrets of Cyclooxygenase
Explore the fascinating evolutionary journey of cyclooxygenase enzymes across animal species and their implications for medicine and biology.
Cracking the Cell's Code: How Bioinformatics Reveals Hidden Pathways in Health and Disease
Explore how bioinformatics tools transform genomic and proteomic data into biological insights through functional pathway analysis in health and disease research.
Unraveling Lupus: How 3D Genome Maps Reveal Hidden Genetic Secrets
Discover how promoter connectome mapping in follicular helper T cells reveals novel genetic mechanisms behind systemic lupus erythematosus and potential therapeutic targets.
The Genome Shuffle: How a Dangerous Bacterium Rewrites Its Own DNA to Survive
Discover how Streptococcus pyogenes M23ND undergoes genomic rearrangements to enhance virulence and survival through cutting-edge scientific research.
Unlocking Our Genome: How Reprogrammed Zinc Finger Proteins Are Revolutionizing Medicine
Explore how reprogrammed zinc finger proteins are revolutionizing genome targeting and gene therapy through AI-powered design and precision engineering.