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Mice heterozygous for the targeted allele are viable and fertile. This polyubiquitin B (Ubb) mutation is characterized by a GFP-puror fusion protein "knock-in" allele that also abolishes endogenous gene function.

PRFlpo CRISPR-derived knock-in mice are designed to have 2A-flpo sequence inserted into the 3' UTR of the progesterone receptor (Pgr) gene.

Esr1Flpo CRISPR-derived knock-in mice are designed to have 2A-flpo sequence inserted into the 3' UTR of the estrogen receptor 1 (alpha) (Esr1) gene.

CckarCre CRISPR-derived knock-in mice are designed to have 2A-cre sequence inserted into the 3' UTR of the cholecystokinin A receptor (Cckar) gene.

Peptidase carboxypeptidase A3 (Cpa3; originally named mast cell carboxypeptidase A14) is highly expressed in mast cells, but is also expressed in basophils and can be expressed in some populations of T-cell progenitors and thymic T cells and in certain hematopoietic progenitor

Stanford scientists in Prof. Steven Boxer's lab have invented a quantum cascade laser (QCL)-based IR spectrometer and assay for the sensitive detection of drug-protein interactions in live cells.

Researchers at Stanford University have developed an innovative hardware-based reconfigurable joint limit mechanism and module that precisely constrains a robot's workspace through pre-performance adjustments.

Stanford researchers have developed an innovative mitral annuloplasty ring designed to enhance mitral valve repair surgeries.

Stanford scientists have developed an innovative 3D brain organoid culture system derived from adult neural stem cells to model neurodegenerative diseases like Alzheimer's and enable high-throughput drug screening.

Efficient removal of CO2, a greenhouse gas, from the atmosphere is critical for mitigating climate change and meeting climate goals.

Stanford scientists have developed a gene editing approach that can correct hundreds of hotspot mutations in the COL7A1 gene locus by adapting the Easi-CRISPR strategy with only one set of single guide RNAs (sgRNA).

Systematic reviews of medical research are resource- and labor-intensive, and a cornerstone of the scientific enterprise.

Stanford researchers have designed a safer, lighter, and nimbler robotic arm.

Stanford scientists have developed a wearable neurostimulator device that targets the dorsal genital nerve on the penis to improve and/or expedite male orgasm.

Stanford scientists have developed a strategy that enables simultaneous and combinatorial genetic screening across different types of genetic perturbations (gene knockouts, knock-ins, overexpression, and gene domain modification).