Stanford researchers in the Quake Lab have patented methods to apply DNA sequencing to analyze the variable regions of the antibody heavy chain in order to profile immune diversity in zebrafish.
Researchers at Stanford University have found that recombinant osteopontin (SPP1) protein reduces foreign body response (FBR) and thereby facilitates successful integration and function of implantable devices.
Stanford researchers have developed AZD7648, a novel DNA-PK inhibitor that enhances HDR efficiency in CRISPR-Cas9 gene editing by shifting DNA repair from the error-prone NHEJ pathway to the precise HDR pathway, significantly improving gene targeting outcomes in human cells fo
Elastin-like polypeptides (ELPs) are promising biomaterials for medical applications due to their non-immunogenicity, scalable synthesis, and tunable self-assembly.
Stanford researchers have developed a new on-chip system for laser microdissection that enables more reliable isolation of single cells or small regions of tissue and permits long-term sample storage.
Stanford University researcher, Bai Yang Wang, has designed a strain probe compatible with the Quantum Design Physical Property Measurement System (PPMS®) for in-situ strain tuning of low-dimensional materials at cryogenic temperatures under large magnetic field und
Stanford researchers have discovered using a novel assay that a large proportion of CRISPR/AAV modified cells contain hidden concatemeric knockins that affect gene expression, and therefore developed a strategy to reduce their occurrence.
Stanford researchers have created a new strategy for collecting and integrating human microbiome, multi-omics, and immune cell activation data that reveals new insights into the roles of different bacterial strains in human health.
Stanford researchers have developed an innovative technology for cryo-vitrification using a temperature-controlled cold gas stream instead of traditional liquid cryogen, which prevents grid distortion, enabling gentle sample cooling and continuous imaging throughout the vitrif
Researchers in Prof. Paul George's laboratory have patented a conductive polymer scaffold designed to electrically stimulate neural progenitor cells (NPCs) for enhanced neural regeneration.
The skin cells that line the esophagus are critical for protecting against the friction of food when we swallow. However, they can be damaged by genetic disorders, caustic burns, and surgical resections for cancer treatment.
Stanford scientists have developed cross-reactive antibodies that can bind human and murine NKp46 on NK cells and induce cytotoxicity and proliferation.