We propose to develop rapid multiplexed assays for the diagnosis of respiratory pathogens in clinical samples. Many viral and bacterial infections cause respiratory illnesses with very similar symptoms, thus, timely and accurate pathogen identification is important for patient recovery and public health monitoring. Current methods include direct immunofluorescence and cell culture, both of which currently require individual tests for each pathogen. We will use bar-coded metallic nanowires as encoded supports for two types of multiplexed diagnostic assays, which will be tested on clinical samples and ultimately transitioned into a clinical setting during the course of the proposed work.
Aim 1. Self quenching nanowire beacons. We will take advantage of the electromagnetic effects near metal surfaces (quenching, enhancement, and alteration of fluorescence lifetimes), to produce nanowire beacon probes that enable many assays to be conducted simultaneously in the same sample. The resulting multiplexible, """"""""closed tube"""""""" nucleic acid detection assays will require no target labeling or washing, nor any special instrumentation beyond a conventional fluorescence optical microscope, and are therefore amenable to point-of-contact assays such as clinical diagnostics. We propose here to develop a 17-plexed assay for respiratory pathogens.
Aim 2. Simultaneous multiplexed amplification and immobilization for pathogen detection. For viruses shed at very low levels, amplification (by growing in culture or by PCR) is necessary for detection. We will overcome current limitations of viral detection by existing methods by introducing multiplexed amplification and immobilization onto bar-coded nanowires (MAIN). To accomplish this we will develop robust surface attachment chemistry that can withstand thermo cycling and will provide for minimal steric hindrance of hybridization and extension, and will then use these advances to simultaneously direct all PCR products of interest onto different, visually identifiable nanowire supports for sensitive pathogen detection. ? ? ?

Agency
National Institute of Health (NIH)
Institute
National Institute of Biomedical Imaging and Bioengineering (NIBIB)
Type
Research Project (R01)
Project #
5R01EB000268-06
Application #
7210612
Study Section
Instrumentation and Systems Development Study Section (ISD)
Program Officer
Korte, Brenda
Project Start
2000-08-04
Project End
2010-02-28
Budget Start
2007-03-01
Budget End
2008-02-29
Support Year
6
Fiscal Year
2007
Total Cost
$295,908
Indirect Cost
Name
Pennsylvania State University
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
003403953
City
University Park
State
PA
Country
United States
Zip Code
16802
Smith, Benjamin D; Fichthorn, Kristen A; Kirby, David J et al. (2014) Asymmetric van der Waals forces drive orientation of compositionally anisotropic nanocylinders within smectic arrays: experiment and simulation. ACS Nano 8:657-70
Dean, Stacey L; Morrow, Thomas J; Patrick, Susan et al. (2013) Biorecognition by DNA oligonucleotides after exposure to photoresists and resist removers. Langmuir 29:11535-45
Smith, Benjamin D; Mayer, Theresa S; Keating, Christine D (2012) Deterministic assembly of functional nanostructures using nonuniform electric fields. Annu Rev Phys Chem 63:241-63
Smith, Benjamin D; Kirby, David J; Keating, Christine D (2011) Vertical arrays of anisotropic particles by gravity-driven self-assembly. Small 7:781-7
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Dean, Stacey L; Stapleton, Joshua J; Keating, Christine D (2010) Organically modified silicas on metal nanowires. Langmuir 26:14861-70
Cederquist, Kristin B; Keating, Christine D (2010) Hybridization efficiency of molecular beacons bound to gold nanowires: effect of surface coverage and target length. Langmuir 26:18273-80
Triplett, Derek A; Quimby, Lisa M; Smith, Benjamin D et al. (2010) Assembly of gold nanowires by sedimentation from suspension: Experiments and simulation. J Phys Chem C Nanomater Interfaces 114:7346-7355
Clawson, Gary A; Keating, Christine; Bhiladvala, Rustom et al. (2009) An RNA Sensor Platform for CTC Detection: Nanotechnology for Detection of Tumour Cell Marker RNAs. Bioforum Eur 13:10-11
Morrow, Thomas J; Li, Mingwei; Kim, Jaekyun et al. (2009) Programmed assembly of DNA-coated nanowire devices. Science 323:352

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