Composite waveguide for solid phase binding assays
First Claim
1. A fluorescence assay, comprising:
- providing a waveguide which is optically conductive and which has at least one surface having a plurality of capture oligonucleotides immobilized site-specifically to substantially all regions of the at least one surface having a base coating thereon, the base coating being located only on portions of the at least one surface, wherein the capture oligonucleotides have a binding site which selectively binds a selected analyte;
providing a light source operable to emit a light beam in a desired wavelength range and positioned to send light into the waveguide;
providing a detection element operably disposed to directly collect radiated fluorescence emitted from molecules located adjacent to a surface of the waveguide;
providing a sample comprising a buffer and a plurality of molecules of a selected analyte;
providing a plurality of tracer molecules which are operable to emit fluorescence in response to stimulation by an evanescent field adjacent to a surface of the waveguide;
combining the sample with the tracer molecules to produce a test solution;
placing the test solution in contact with the waveguide surface while operating the light source to direct light into the waveguide to generate the evanescent field; and
selectively and directly collecting radiated fluorescent light emitted from the tracer molecules.
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Accused Products
Abstract
A step-gradient composite waveguide for evanescent sensing in fluorescent binding assays comprises a thick substrate layer having one or more thin film waveguide channels deposited thereon. In one embodiment, the substrate is silicon dioxide and the thin film is silicon oxynitride. Specific binding molecules having the property of binding with specificity to an analyte are immobilized on the surface of the thin film channels. In preferred embodiments, the composite waveguide further includes light input coupling means integrally adapted to the thin film channels. Such light coupling means can be a grating etched into the substrate prior to deposition of the thin film, or a waveguide coupler affixed to the upper surface of the thin film. The waveguide coupler has a thick input waveguide of high refractive index which receives the laser light through one end and propagates it by total internal reflection. The propagated light is then coupled evanescently into the thin film waveguide across a spacer layer of precise thickness and having an index of refraction lower than either the input waveguide or the thin-film waveguide. The composite waveguide can be constructed by plasma vapor deposition of silicon oxynitride onto the silicon dioxide substrate, masking the channel waveguides with a photoresist, and using reactive ion etching to expose the substrate in the unmasked regions.
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Citations
5 Claims
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1. A fluorescence assay, comprising:
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providing a waveguide which is optically conductive and which has at least one surface having a plurality of capture oligonucleotides immobilized site-specifically to substantially all regions of the at least one surface having a base coating thereon, the base coating being located only on portions of the at least one surface, wherein the capture oligonucleotides have a binding site which selectively binds a selected analyte;
providing a light source operable to emit a light beam in a desired wavelength range and positioned to send light into the waveguide;
providing a detection element operably disposed to directly collect radiated fluorescence emitted from molecules located adjacent to a surface of the waveguide;
providing a sample comprising a buffer and a plurality of molecules of a selected analyte;
providing a plurality of tracer molecules which are operable to emit fluorescence in response to stimulation by an evanescent field adjacent to a surface of the waveguide;
combining the sample with the tracer molecules to produce a test solution;
placing the test solution in contact with the waveguide surface while operating the light source to direct light into the waveguide to generate the evanescent field; and
selectively and directly collecting radiated fluorescent light emitted from the tracer molecules. - View Dependent Claims (2, 3, 4, 5)
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Specification
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- Resources
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Current AssigneeUniversity of Utah (State of Utah)
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Original AssigneeBioCentrex, LLC
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InventorsDurtschi, Jacob D., Christensen, Douglas A., Wang, Hsu-Kun, Herron, James N., Reichert, W. Monty
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Primary Examiner(s)Chin, Christopher L.
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Application NumberUS09/185,318Time in Patent Office2,429 DaysField of Search422/82.05, 422/82.08, 422/82.11, 435/6, 435/7.5, 435/287.1, 435/287.2, 435/288.7, 435/808, 436/165, 436/172, 436/518, 436/527, 436/531, 436/805, 385/12, 385/123, 385/129, 356/317, 356/318US Class Current436/518CPC Class CodesG01N 2021/058 Flat flow cellG01N 2021/7709 Distributed reagent, e.g. o...G01N 2021/7763 Sample through flowG01N 2021/7786 FluorescenceG01N 21/05 Flow-through cuvettes G01N2...G01N 21/274 Calibration, base line adju...G01N 21/648 using evanescent coupling o...G01N 21/7703 using reagent-clad optical ...G01N 33/543 with an insoluble carrier f...G02B 2006/12038 Glass (SiO2 based materials)G02B 2006/12107 GratingG02B 2006/12173 MaskingG02B 2006/12176 EtchingG02B 6/34 utilising prism or grating ...Y10S 435/808 Optical sensing apparatusY10S 436/805 Optical property
