Researchers at Stanford University have discovered that the absence of a long non coding RNA (lnc122) predisposed mice to high numbers of hepatocellular carcinomas (HCC), and its replacement decreased the risk of HCC.
Stanford and Baylor researchers have discovered an exercise-induced lactate-derived metabolite that mediates the anorexigenic and anti-obesity effects of physical activity.
Discrete water sampling is resource and time intensive. It also involves the need for the scientist with or without a vessel to be on site to take the discrete sample.
Stanford inventors have created a novel, interactive, highly scalable computational approach for representing dynamic brain activity as a network for use in clinical settings.
To combat the growing problem of antibiotic resistant bacteria, Stanford researchers have developed nanoclusters comprising a metallic core conjugated to a nucleotide.
One of the main shortcomings of the clinical use of Hematopoietic Stem Cells (HSCs) is the limited number of cells that can be safely harvested from a patient.
Stanford researchers have developed methods for optimizing peptide vaccines, with candidate peptides against EGFPvIII-expressing glioblastoma and SARS-CoV-2.
Stanford scientists have developed an accurate, rapid, and efficient tool for in vivo microglial manipulation to validate gene functions after transcriptomic analysis.
Stanford Researchers have discovered fluorinated acetal electrolytes for lithium metal batteries that demonstrate fast stabilization of lithium metal, compatibility with high-voltage cathodes, and low cell impedance.
Researchers at Stanford have developed a technology that uses biomechanical force to initiate T-cell triggering in a high throughput method, facilitating the exploration of the force- and sequence-dependent landscape of T-cell responses.
Researchers at Stanford University have developed a bespoke method for multiplexing beads in bioassays that expands the possible coding space when compared to available bead barcoding technologies.
Researchers at Stanford University and the CZ Biohub San Francisco have developed a strategy for retrieving and cloning antibody DNA from single cells within a pooled library of cells, enabling the rapid and low-cost cloning and expression of native human antibodies for functi