Surface assembly for immobilizing DNA capture probes in genetic assays using enzymatic reactions to generate signal in optical bio-discs and methods relating thereto
First Claim
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1. An optical bio-disc, comprising:
- a substrate at least partially spin coated with an active layer that adheres to a pellet formed by an enzyme reaction; and
at least one strand of DNA having an affinity for the active layer such that the DNA is immobilized on the active layer in a target zone.
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Abstract
The present invention relates to methods and systems for the detection of specific sequences of nucleic acids or oligonucleotides. It relates more particularly to a conjugated enzyme based assay system utilizing reflective and/or transmissive optical bio-discs for detection of specific sequences of nucleic acids. In the assay according to the present invention, an enzyme reaction is used to detect the presence of an analyte (DNA or RNA) in a microchannel in an optical bio-disc. The analyte is immobilized by hybridization with a specific capture probe on a capture layer on the surface and the signal that is generated is localized and specific. The signal can be in the form of a pellet, a fluorescent product, and/or a colored product, and can be detected and quantified by an optical bio-disc reader utilized in conjunction with the inventions hereof. This assay is thus quantitative in nature.
42 Citations
20 Claims
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1. An optical bio-disc, comprising:
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a substrate at least partially spin coated with an active layer that adheres to a pellet formed by an enzyme reaction; and
at least one strand of DNA having an affinity for the active layer such that the DNA is immobilized on the active layer in a target zone. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of testing for the presence of a target-nucleic acid in a test sample, said method comprising the steps of:
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providing a bio-disc, the bio-disc comprising a substrate at least partially spin coated with an active layer that adheres to a pellet formed by an enzyme reaction, and at least one strand of capture-DNA having an affinity for the active layer such that the capture-DNA is immobilized on the active layer in a target zone, wherein the capture-DNA and the target-nucleic acid having at least some complementary sequence;
depositing the test sample on the target zone;
allowing any target-nucleic acid present in the test sample to hybridize with the capture-DNA;
providing a plurality of enzyme molecules;
binding the enzyme molecules to the target-nucleic acid such that enzyme molecules bound to the target-nucleic are immobilized within the target zone;
washing the target zone to remove any unbound enzyme molecules;
depositing onto the target zone at least one enzyme substrate that reacts with the enzyme molecules to produce at least one detectable signal; and
detecting any signal in the target zone to thereby determine whether target-nucleic acid is present in the test sample. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A method of making an optical bio-disc, said method comprising the steps of:
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providing a substrate;
forming a target zone on the substrate;
spin coated at least the target zone with an active layer that adheres to a pellet formed by an enzyme reaction;
encoding information on an information layer associated with the substrate, the encoded information being readable by a disc drive assembly to control rotation of the disc; and
depositing within the target zone, a plurality of strands of capture-DNA, at least some of the capture-DNA attaching to the active layer to thereby become immobilized within the target zone. - View Dependent Claims (18, 19, 20)
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Specification
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Current AssigneeVindur Technologies, Inc.
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Original AssigneeBurnstein Technologies, Inc., Nagaoka & Co., Ltd.
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InventorsWerner, Martina Elisabeth, Gordon, John Francis, Valencia, Ramon Magpantay
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Primary Examiner(s)Horlick, Kenneth R.
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Application NumberUS10/150,702Publication NumberTime in Patent Office1,537 DaysField of Search435/6, 435/91.2, 435/287.2, 422/68.1US Class Current435/6.12CPC Class CodesB01J 19/0046 Sequential or parallel reac...B01J 2219/00274 Sequential or parallel reac...B01J 2219/00317 Microwell devices, i.e. hav...B01J 2219/005 BeadsB01J 2219/00536 in the shape of disksB01J 2219/00576 fluorophoreB01J 2219/00578 electrophoricB01J 2219/00585 Parallel processesB01J 2219/00596 Solid-phase processesB01J 2219/00605 the compounds being directl...B01J 2219/0061 The surface being organicB01J 2219/00617 by chemical meansB01J 2219/00621 by physical means, e.g. tre...B01J 2219/0063 Other, e.g. van der Waals f...B01J 2219/00637 by coating it with another ...B01J 2219/00641 the porous medium being con...B01J 2219/00648 by the use of solid beadsB01J 2219/00659 Two-dimensional arraysB01J 2219/00675 In-situ synthesis on the su...B01J 2219/00689 using computersView All
