Abstract: Methods of identifying target binding molecules by target guided synthesis are provided. The methods include providing two or more fragments capable of reacting to form the target binding molecule and mixing the fragments with the target. The methods can be used to identify target binding molecules that bind targets such as proteins or nucleic acids, including those that bind shallow binding pockets on the surface of such targets. The methods are applied to the Bcl-XL and Mcl-1 proteins from the Bcl-2 family of proteins. Using thio acid and sulfonyl azide fragments capable of reacting through sulfo-click chemistry, new acyl sulfonamides are identified that bind one or both of the Bcl-XL and Mcl-1 proteins. Pharmaceutical formulations of these target binding molecules are also provided.
Type:
Application
Filed:
August 6, 2014
Publication date:
April 28, 2016
Applicants:
THE PENN STATE RESEARCH FOUNDATION, University of South Flordia
Inventors:
Roman Manetsch, Katya Pavlova Nacheva, David Lawrence Flanigan, Niranjan Kumar Namelikonda, Iredia David Iyamu, Sameer Shamrao Kulkarni, Megan M. Barber, Jeremiah Dwayne Tipton, Hong-Gang Wang, Kenichiro Doi
Abstract: A carbon nanotube sensor and a method of producing the carbon nanotube sensor are disclosed. The sensor detects small particles and molecules. The sensor includes a gate, a source and a drain positioned on the gate, and a carbon nanotube grown from a catalytic material and extending from one of the source and the drain. The method includes the step of functionalizing an end of the carbon nanotube with a receptor. As such, the carbon nanotube is receptive to the small particles and molecules. The carbon nanotube is driven at a resonance, and the resonance of the carbon nanotube is measured when the end of the carbon nanotube is free of the small particles and the molecules. The method includes monitoring for a change in the resonance to detect the association of the small particles and molecules with the end of the carbon nanotube.
Abstract: The invention provides novel mutant S182 sequences, methods of diagnosing Alzheimer's disease using these novel mutant S182 genes, a model system for Alzheimer's disease comprising a mutant S182 gene, and methods of identifying mutations in genes homologous to the S182 gene.
Type:
Grant
Filed:
June 26, 1996
Date of Patent:
October 26, 1999
Assignees:
Washington University, University of South Flordia