Exploring the genomic differences between ovarian cancer stem cells and non-stem cancer cells, and how these differences contribute to treatment resistance.
Breakthroughs in genomically recoded E. coli enable high-yield production of proteins with non-canonical amino acids for advanced biotech applications.
Exploring how KCNJ8 gene mutations disrupt cardiac KATP channels, leading to Sudden Infant Death Syndrome (SIDS) and potential prevention strategies.
Exploring the sophisticated transcriptional regulation of ABO genes and their profound impact on transfusion medicine, disease susceptibility, and human biology.
Discover how immune cells in skin and vaginal mucosa have distinct transcriptional fingerprints that revolutionize vaccine design and disease treatment.
Explore how DNA microarrays combined with path analysis transform genetic data into precise disease blueprints, revolutionizing disease prediction and treatment.
Exploring how C. elegans' nine α-tubulin genes create functional diversity in microtubules and their implications for neuroscience and human health.
Exploring how genetic diversity and modern genomics help forests adapt to climate change, featuring CRISPR-engineered pines and assisted gene flow strategies.
Groundbreaking study successfully isolates and sequences 14 previously uncultivated bacterial associates from Spongia sponges, revealing their genetic potential for medicine and biotechnology.
Discover how Cryptosporidium's unique repeating protein structure makes it resistant to environmental threats and potential therapeutic approaches targeting this molecular armor.