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Award Information
Proposal Number: 0412017
Proposal Title: Development of a Multi-analyte Biosensor Platform Based on Computationally-Designed Proteins
Topic Number: H-SB04.1-002
Phase: Phase II
Topic Title: Chem-Bio Sensors Employing Novel Receptor Scaffolds
Organization: Nomadics, Inc.
Address: 1024 S. Innovation Way
Stillwater, OK 74074-1508  
Abstract: Current antibody- or enzyme-based chemical and biological sensors generally suffer from several disadvantages including involved development cycles, short shelf life, implementation difficulties, and no clear path for new receptor development. We propose an approach based on the use of computationally designed proteins (CDPs) as receptor scaffolds. Such scaffolds overcome many of the problems encountered with biosensors. Significantly, this approach is a general method that provides a path to rapid development of specific receptors. In Phase I, we demonstrated the ability of solutions of computationally designed proteins to display a fluorescent signal change upon ligand binding, we attached computationally designed proteins to solid surfaces, and we demonstrated that fluorescently tagged, immobilized phosphonate-binding proteins can display fluorescent signal change upon ligand binding. Thus, we are confident that continuation of this project will yield favorable results. Specifically, during Phase II, we will continue development of biosensors that incorporate engineered periplasmic binding proteins that recognize and report organophosphate mimics and hydrolysis products of well-known nerve agents. The primary goal will be incorporation of highly stable CDPs into a prototype device for the detection of hydrolysis products of sarin and soman. We will continue our collaboration with Dr. H.W. Hellinga at Duke University Medical Center.
Award/Contract Number: NBCHC050062
Period of Performance: 05/02/2005 - 07/31/2008
Award/Contract Value: $750,000.00
Award/Obligated Amount: $750,000.00