4931 articles
Scientists develop scBPS tool to identify which human cells interact with specific gut microbes, revealing new therapeutic targets.
New review reveals how gut microbe chemicals directly reprogram tumor immune responses through multiple pathways.
New research reveals how mitochondria regulate multiple cell death pathways and trigger inflammation, offering targets for cancer therapy.
Scientists review breakthrough methods for transferring healthy mitochondria into damaged cells to restore cellular energy and combat aging.
New nanotechnology selectively destroys cancer cell mitochondria, making tumors more vulnerable to T cell attacks across multiple cancer types.
Scientists develop LOCL-TL to map where proteins are made inside cells, discovering two distinct strategies for mitochondrial protein synthesis.
New research reveals how LARP4 protein causes T cells to malfunction in tumors by disrupting cellular energy production.
New review reveals how heart muscle energy production fails to match mechanical demands, driving different types of heart failure.
Researchers integrated brain protein and gene data to identify EGFR, SCFD1, and GMPPB as promising new targets for treating deadly brain cancer.
Multi-omics study reveals how altered gut microbiome in autistic children produces specific proteins and metabolites that cross the blood-brain barrier.
Advanced computational methods integrate genomics, metabolomics, and AI to accelerate discovery of bioactive compounds from natural sources.
Multi-omics analysis reveals SASH1 protein loss predicts worse outcomes in head and neck cancer patients and guides targeted therapy selection.
