Researchers in Dr. Or Gozani's laboratory have produced lysine methyltransferases, histone octomers, purified nucleosomes, and antibodies for use in chromatin and epigenetic research.
A method of using neuregulin antagonists to delay the time of tumor recurrence in cancer patients has been developed by Dr. Sweet-Cordero and collaborators. This technology is available for non-exclusive license.
Researchers in Dr. Roeland Nusse's laboratory have generated an Axin2CreERT2 knock-in mouse strain that can be used to identify and map stem cells in any tissue. The Wnt/β-catenin signaling pathway is instrumental for stem cell maintenance in multiple tissues.
Engineers in the Stanford Microfluidics Laboratory have developed a sensitive, high-resolution, label-free detection method for identifying and quantifying analytes on chip-based electrophoretic assays.
Hemizygous mice are viable and fertile with no anatomic abnormalities. Transgene expression is observed in aorta, heart, and brain. Transgenicdimethylarginine dimethylaminohydrolase (DDAH) activity is reflected in a reduction of plasma asymmetric dimethylarginine (ADMA).
This invention enables the high-sensitivity, high-resolution stacking, separation, and fluorescence-based detection of non-fluorescent analytes in any electrophoresis platform.
Researchers in Prof. Juan Santiago's laboratory have developed a novel isotachophoresis (ITP) method to easily and seamlessly integrate various electrophoresis-based detection techniques with ITP preconcentration.
Stanford researchers have developed a versatile computational approach for easily visualizing and analyzing multidimensional molecular data, such as flow cytometry data.
We have recently shown that rab9 plays a key role in the transport of proteins between late endosomes and the trans Golgi network. Purified, recombinant, rab9 protein stimulated transport in a cell free system that reconstitutes this event.
Stanford and IBM researchers have recently patented methods for making a new class of multi-branched macromolecules with well-defined molecular weights and surface structures.
RNKp30 monoclonal antibodies were generated by immunizing BALB/c mice with rNKp30-Fc fusion protein. The rNKp30-Fc fusion protein is a soluble protein consisting of the extracellular domain of rNKp30 fused to the Fc domain of human IgG1.
Researchers in Prof. Liqun Luo's laboratory have developed a mouse model system for in vivo, non-invasive, spatially- and temporally-controlled labeling of individual synapses.
Stanford researchers have developed a method in which induced pluripotent stem cells (iPSCs) can be generated specifically for a disease of interest. In particular, they are able to generate patient-specific iPSCs related to Parkinson's disease or Parkinson's-like disease.
The Light Field Microscopy (“LFM”) is a patented system that enables rapid acquisition of images to be virtually analyzed at any time in the future from different viewpoints or focus adjustments.