Apparatus and method for the analysis of nucleic acids hydbridization on high density NA chips
First Claim
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1. An analytical method for determining whether a DNA sample comprises double-stranded DNA, said method comprising analyzing the DNA sample by near field Raman spectroscopy to determine whether the sample produces lattice vibrations, wherein the presence of lattice vibrations indicates the presence of double stranded DNA in the DNA sample.
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Abstract
The invention generally relates to a new gene probe biosensor employing near field surface enhanced Raman scattering (NFSERS) for direct spectroscopic detection of hybridized molecules (such as hybridized DNA) without the need for labels, and the invention also relates to methods for using the biosensor.
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20 Claims
- 1. An analytical method for determining whether a DNA sample comprises double-stranded DNA, said method comprising analyzing the DNA sample by near field Raman spectroscopy to determine whether the sample produces lattice vibrations, wherein the presence of lattice vibrations indicates the presence of double stranded DNA in the DNA sample.
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3. An analytical system for determining whether a DNA sample comprises double-stranded DNA, said system comprising:
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(a) a sample retention structure;
(b) a radiation source arranged to irradiate the sample retention structure to produce photonic scattering from a sample on said sample retention structure; and
(c) an electronics unit comprising;
(i) a photonic collector;
(ii) a Raman spectrograph; and
(iii) spectral analyzer arranged to analyze the DNA sample by near field Raman spectroscopy to determine whether the sample produces lattice vibrations, wherein the presence of lattice vibrations indicates the presence of double stranded DNA in the DNA sample.
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4. A spectroscopic system for detecting molecular hybridization, said system comprising:
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(a) a near-field SERS substrate arranged to support one or more predetermined hybridizeable molecules thereon;
(b) a source of coherent radiation source arranged to impinge coherent radiation onto each of the hybridizeable molecules to responsively produce a pattern of scattered photons;
(c) a photonic collector arranged in photon-gathering relationship to the photons and adapted to transmit the gathered scattered photons;
(d) a Raman spectrograph arranged in photon receiving relationship to the photonic collector and adapted to generate an output correlative to the collected scattered photons transmitted by the photonic collector, and (e) a spectral to electronic converter, arranged to receive the output of the Raman spectrograph and to convert same to an electronic output indicative of the presence or absence of hybridized molecules on the SERS substrate. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for detecting hybridized DNA comprising:
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(a) providing a spectroscopic system for detecting molecular hybridization, said system comprising;
(i) a near-field SERS substrate arrayed to support one or more predetermined hybridizeable molecules thereon;
(ii) a source of coherent radiation source arranged to impinge coherent radiation onto each of the hybridizeable molecules to responsively produce a pattern of scattered photons;
(iii) a photonic collector arranged in photon-gathering relationship to the photons and adapted to transmit the gathered scattered photons;
(iv) a Raman spectrograph arranged in photon receiving relationship to the photonic collector and adapted to generate an output correlative to the collected scattered photons transmitted by the photonic collector; and
(v) a spectral to electronic converter, arranged to receive the output of the Raman spectrograph and to convert to an electronic output indicative of the presence or absence of hybridized molecules on the SERS substrate;
(b) exposing the predetermined hybridizeable molecules disposed on the near field SERS substrate to a sample containing one or more sample molecules having the capacity to hybridize to the predetermined hybridizeable molecules;
(c) directing the laser beam from the laser light source onto each of the one or more predetermined hybridizeable molecules to create a pattern of scattered photons for each of said hybridizeable molecules;
(d) collecting the scattered photons for each of said hybridizeable molecules and directing them to the Raman spectrograph;
(e) collecting photonic data from the Raman spectrograph and transforming said photonic data into electronic data for further data processing; and
(f) determining whether each of the hybridizeable molecule is hybridized to a sample molecule by comparing the Raman spectrum of (i) each hybridizeable molecule exposed to the sample to (ii) the Raman spectrum to the corresponding unhybridized predetermined hybridizeable molecule. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
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Specification