Description of Invention: Investigators at the National Institute on Deafness and Other Communication Disorders (NIDCD) have developed an assay for the detection of protein-protein interactions in living cells. This assay uses readily-available reagents and straightforward techniques that avoid the difficulty of purifying proteins or generating antibodies required for other binding studies. Proof-of-concept for this assay has been demonstrated, and a manuscript is in preparation for publication.
This technology utilizes a molecular motor, myosin X, which migrates along actin filaments within cells. A protein fused to a fragment of myosin X will carry its binding partners to the cell periphery. Since the myosin fusion protein and its partner are labeled with different fluorescent tags, an unambiguous fluorescence overlap will be visible as discrete points along the periphery of the cell. The inventors have designed a number of cDNAs for the construction of fusion proteins appropriate for such an assay.
Available for licensing are a variety of cDNAs which may be used for generating fluorescently-tagged myosin X fusion proteins, for use in the assay described above. Also available are a number of constructs incorporating other fluorescently-tagged myosins, kinesins, myosin and kinesin binding partners and a variety of PDZ scaffold proteins. Further details of the available cDNAs are available upon request.
Identification of protein-protein binding interactions in living cells
DNA-based tools for study of myosins, trafficking, signaling complexes and other research focusing on molecular motors
Assay avoids the need to purify proteins or generate antibodies for binding studies
Protein-protein interactions can be unambiguously identified
Development Status: Proof of concept has been demonstrated.
Inventors: Erich T Boger (NIDCD) Thomas B Friedman (NIDCD) Inna A Belyantseva (NIDCD)
Research Tool -- patent protection is not being sought for this invention.
Belyantseva IA et al. Myosin-XVa is required for tip localization of whirlin and differential elongation of hair-cell stereocilia. Nat Cell Biol. 2005 Feb;7(2):148-156. [ PubMed: 15654330 ]
Licensing Status: Available for licensing under a Biological Materials License Agreement.
Portfolios: Devices/Instrumentation Devices/Instrumentation - Research Tools and Materials
For Licensing Information Please Contact: Tara Kirby Ph.D. NIH Office of Technology Transfer 6011 Executive Blvd. Suite 325, Rockville, MD 20852 United States Email: firstname.lastname@example.org Phone: 301-435-4426 Fax: 301-402-0220