Biohazard Detection Using Metal-Enhanced Fluorescence
University Of Maryland Baltimore, Baltimore MD
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Abstract
DESCRIPTION (provided by applicant): Recent results from this laboratory have shown that the spectral properties of fluorescent probes can be favorably enhanced by interactions with metallic particles. We propose to use these interactions to develop high sensitivity detection of bioterrorism-related pathogens. The overall goal is to demonstrate single molecule or low copy number detection of nucleic acid sequences specific for such organisms. To accomplish these goals we propose: Specific Aim 1. Develop and test specificity of microarrays for selected Y. pestis and Y. pseudotuberculosis genes. We will select genes from the known genomic sequence of Yersinia pestis. Some genes will be specific to the virulence plasmids and others to detect both Y. pestis and the less virulent Y. pseudotuberculosis. The specificity will be determined against DNA from other species and strains of Yersinia. Specific Aim 2. Optimization of the fluorophore-metallic particle detection methodology for use with pathogen-specific oligomers. We will optimize the fluorophore-metallic surface geometries to obtain the maximal number of photons per fluorophore. This will include: examination of silver island films and colloids to determine the optimal size and shape for enhanced emission; evaluation of the optimal distance from the fluorophore to the metallic surface for maximal emission; and evaluation of the use of FRET for DNA assays. Specific Aims 1 and 2 will proceed concurrently. Specific Aim 3. Determine the sensitivity and specificity of the metallic-surface enhanced assays for Y. pestis. The sensitivity of the assays will be determined by assays based on serial dilutions. The specificity will be determined against DNA from other species and strains of Yersinia.
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