This invention pertains to a system for continuous observation of rodents in home-cage environments with the specific aim to facilitate the quantification of activity levels and behavioral patterns for mice housed in a commercial ventilated cage rack. The National Cancer Institute’s Radiation Biology Branch seeks partners interested in collaborative research to co-develop a video monitoring system for laboratory animals.
Researchers at the National Cancer Institute (NCI) seek licensing for an improved cell line called Tni-FNL which is capable of high level expression of heterologous proteins using baculovirus expression systems.
National Cancer Institute (NCI) researchers have isolated T-cell receptors (TCRs) reactive to the highly prevalent p53-Y220C and p53-R273C mutants. These TCRs can be used for a variety of therapeutic, diagnostic and research applications. NCI seeks licensing and/or co-development research collaborations for TCRs that recognize p53-Y220C and p53- R273C mutations, and methods for identifying p53 mutation-reactive T cell receptors.
Available for licensing is computer software for the automated generation of density maps of macromolecular structures from a series of 2D digital micrographs of frozen hydrated specimens collected using an electron microscope equipped with an ultra-cooled computerized stage.
The NCI Radiation Oncology Branch and the NHLBI Laboratory of Single Molecule Biophysics seek parties to co-develop fluorescent nanodiamonds for use as in vivo and in vitro optical tracking probes toward commercialization.
The NCI seeks licensees or co-development partners for this technology, which describes compositions, methods and kits for identifying, characterizing biomolecules expressed in a sample that are associated with the presence, the development, or progression of cancer.
Researchers from NCI and Rudgers University developed methods of detecting abnormal cells in a sample using the spatial position of one or more genes within the nucleus of a cell, as well as a kit for detecting abnormal cells using such methods. The invention also provides methods of identifying gene markers for abnormal cells using the spatial position of one or more genes within the nucleus of a cell.
The National Cancer Institute seeks parties interested in collaborative research to co-develop diagnostic methods for detection of cancer using spatial genome organization.
The National Cancer Institute (NCI) seeks licensing partners for a novel modified insect cell line, Sf9-ET, that can quickly and efficiently determine baculovirus titers during the expression of recombinant proteins from a baculovirus-based protein expression system.
National Cancer Institute (NCI) researchers have developed a novel software tool for uniform recording of Mitotic Figure (MF) counts via conventional and/or digital microscopy. With this technology, diagnostic centers can standardize electronic recording, summation, and transcription of clinical data during surgical pathology examination. NCI seeks licensing partners to further develop this application for use in diagnosis and detection of malignant cancers.
Pre-clinical radiotracer biomedical research involves the use of compounds labeled with radioisotopes, including radio-ligand bio-distribution studies, cell binding studies, immune cell labeling techniques, and α-based therapies. Before this Micro-Dose Calibrator, measurement of pre-clinical level dosage for small animal studies was inaccurate and unreliable. This dose calibrator is a prototype ready for customer testing and scale-up. It is designed to accurately measure radioactive doses in the range of 50 nCi (1.8 kBq) to 100 µCi (3.7 MBq) with 99% precision. The NCI seeks co-development or licensing to commercialize it. Alternative uses will be considered.
The National Cancer Institute seeks licensees or research collaborators to develop and commercialize transgenic mice having immunocompetent rat growth hormone-firefly Luciferase-enhanced green fluorescent protein.
The National Cancer Institute (NCI) seeks licensees for humanized mice that express the human isomer of mesothelin (MSLN) in the thyroid. NCI created Bl6/TPO mice for studies of mesothelin as a target for research, diagnostic, or therapeutics involving human cancers.
Device is used to guide a stream of oxygen or carbon dioxide over a dish of cells during fluorescence microscopy. Invention includes the 3D printing software to create the device. The device makes it possible to easily provide a steady source of oxygen or carbon dioxide to cells while operating a fluorescent microscope to oxidize fluorophores for later visualization in electron microscopy. NCI seeks commercial partners to license this technology.