Surface plasmon resonance-mass spectrometry
First Claim
1. A method for performing surface plasmon resonance-mass spectrometry on a sample, comprising:
- capturing an analyte present within the sample by an interactive surface layer of an interaction analysis sensor;
analyzing the analyte by surface plasmon resonance which monitors a consequential change of a reflected first light beam while the analyte is captured by the interactive surface layer of the interaction analysis sensor; and
mass analyzing the captured analyte by desorbing/ionizing the analyte from the interactive surface layer of the interaction analysis sensor with a second light beam while under vacuum within a mass spectrometer.
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Abstract
The invention provides surface plasmon resonance-mass spectroscopy for the rapid, sensitive and accurate investigation of molecular interactions coupled with the identification and quantification of the same. Methods of the invention include capturing an analyte present within a sample by an interactive surface layer on a real-time interaction analysis sensor, analyzing the analyte by surface plasmon resonance while the analyte is captured by the interactive surface layer, and identifying the captured analyte by desorbing/ionizing the analyte from the interactive surface layer while under vacuum within a mass spectrometer. Devices of the invention include a transparent material, a conductive material capable of supporting surface plasmon resonance affixed to the transparent material, an interactive surface affixed to the conductive material, and a means for exposing the interactive surface to the interior of a mass spectrometer without breaking the vacuum therein.
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Citations
17 Claims
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1. A method for performing surface plasmon resonance-mass spectrometry on a sample, comprising:
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capturing an analyte present within the sample by an interactive surface layer of an interaction analysis sensor; analyzing the analyte by surface plasmon resonance which monitors a consequential change of a reflected first light beam while the analyte is captured by the interactive surface layer of the interaction analysis sensor; and mass analyzing the captured analyte by desorbing/ionizing the analyte from the interactive surface layer of the interaction analysis sensor with a second light beam while under vacuum within a mass spectrometer. - View Dependent Claims (2, 3, 7, 8, 9, 14, 17)
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4. A method for analyzing and identifying an analyte within a sample, comprising:
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capturing the analyte by contacting the analyte with an interactive surface layer affixed to a conductive material capable of supporting surface plasmon resonance, wherein the conductive material has a front surface affixed to the interactive surface layer and a back surface affixed to a transparent layer; directing a first light beam through the transparent layer at varying angles of incidence or wavelengths such that the first light beam is reflected off the back surface of the conductive material and excites surface plasmons at the interface between the conductive layer and the interactive surface laser; detecting the angle of incidence or the wavelength at which the intensity of the reflected first light beam has a minimum due to surface plasmon resonance to determine the angular or wavelength change caused by the analyte captured by the interactive surface layer; and measuring the mass spectrum of the analyte by desorbing/ionizing the analyte from the interactive surface layer with a second light beam while under vacuum within a mass spectrometer. - View Dependent Claims (5, 6, 10, 11, 12, 13, 15, 16)
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Specification