Invasion assays
First Claim
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1. A method of detecting a target polynucleotide which comprises the steps of:
- a) contacting a target polynucleotide having a first portion and a second portion immediately contiguous to one another with;
i) an invader oligonucleotide, at least a part of which is capable of specifically hybridizing to the first portion of the target polynucleotide;
ii) a first probe oligonucleotide comprising a first region that is capable of specifically hybridizing to the second portion of the target polynucleotide and an unpaired region located adjacent to the first region; and
iii) a reagent that is capable of cleaving to release the unpaired region of the first probe oligonucleotide to produce a cleaved unpaired region, wherein said reagent comprises a 5′
nuclease;
producing said cleaved unpaired region by cleaving said first probe oligonucleotide, forming a cleavage structure comprising said cleaved unpaired region and a second probe oligonucleotide by hybridizing said cleaved unpaired region to said second probe oligonucleotide, or forming a cleavage structure comprising said cleaved unpaired region, said second probe oligonucleotide, and a target nucleic acid by hybridizing said cleaved unpaired region and said second probe oligonucleotide to said target nucleic acid, and generating a cleaved second probe by cleaving said second cleavage structure using the reagent;
b) detecting the accumulation of the cleaved second probe oligonucleotide; and
c) determining whether the cleaved second probe oligonucleotide accumulates exponentially over time, wherein said exponential accumulation of the cleaved second probe oligonucleotide over time is indicative of the presence of said target polynucleotide.
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Abstract
The present invention relates to means for the detection and characterization of nucleic acid sequences, as well as variations in nucleic acid sequences. The present invention also relates to methods for forming a nucleic acid cleavage structure on a target sequence and cleaving the nucleic acid cleavage structure in a site-specific manner. The structure-specific nuclease activity of a variety of enzymes is used to cleave the target-dependent cleavage structure, thereby indicating the presence of specific nucleic acid sequences or specific variations thereof. The present invention further relates to methods and devices for the separation of nucleic acid molecules based on charge. The present invention also provides methods for the detection of non-target cleavage products via the formation of a complete and activated protein binding region. The invention further provides sensitive and specific methods for the detection of human cytomegalovirus nucleic acid in a sample.
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Citations
23 Claims
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1. A method of detecting a target polynucleotide which comprises the steps of:
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a) contacting a target polynucleotide having a first portion and a second portion immediately contiguous to one another with; i) an invader oligonucleotide, at least a part of which is capable of specifically hybridizing to the first portion of the target polynucleotide; ii) a first probe oligonucleotide comprising a first region that is capable of specifically hybridizing to the second portion of the target polynucleotide and an unpaired region located adjacent to the first region; and iii) a reagent that is capable of cleaving to release the unpaired region of the first probe oligonucleotide to produce a cleaved unpaired region, wherein said reagent comprises a 5′
nuclease;producing said cleaved unpaired region by cleaving said first probe oligonucleotide, forming a cleavage structure comprising said cleaved unpaired region and a second probe oligonucleotide by hybridizing said cleaved unpaired region to said second probe oligonucleotide, or forming a cleavage structure comprising said cleaved unpaired region, said second probe oligonucleotide, and a target nucleic acid by hybridizing said cleaved unpaired region and said second probe oligonucleotide to said target nucleic acid, and generating a cleaved second probe by cleaving said second cleavage structure using the reagent; b) detecting the accumulation of the cleaved second probe oligonucleotide; and c) determining whether the cleaved second probe oligonucleotide accumulates exponentially over time, wherein said exponential accumulation of the cleaved second probe oligonucleotide over time is indicative of the presence of said target polynucleotide. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for detecting the presence of a first target nucleic acid in a sample, comprising:
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a) incubating a sample containing a first target nucleic acid with a first nucleic acid molecule and a second nucleic acid molecule and forming a first cleavage structure, said first cleavage structure comprising; i) said first target nucleic acid comprising a first region and a second region, said second region upstream of and contiguous to said first region; ii) said first nucleic acid molecule comprising a first portion that is completely complementary the second region of the first target nucleic acid; iii) said second nucleic acid molecule comprising a 3′
portion and a 5′
portion, wherein said 5′
portion is completely complementary to said first region of said first target nucleic acid;wherein said 5′
portion of said second nucleic acid molecule is annealed to said first region of said first target nucleic acid and wherein at least a portion of said first nucleic acid molecule is annealed to said second region of said first target nucleic acid, and wherein a 5′
portion of said first nucleic acid molecule is not annealed to said first target nucleic acid,b) cleaving said first cleavage structure with a cleavage agent comprising a 5′
nuclease, generating a non-target cleavage product, and forming a second cleavage structure comprising;i) said non-target cleavage product; and ii) a probe oligonucleotide; by hybridizing said non-target cleavage product to said probe oligonucleotide, or forming a second cleavage structure comprising; i) said non-target cleavage product; ii) said probe oligonucleotide; and iii) a second target nucleic acid; by hybridizing both said non-target cleavage product and said probe oligonucleotide to said second target nucleic acid, and c) cleaving said second cleavage structure with said cleavage agent, generating a cleaved probe and detecting said cleaved probe at a plurality of time points, wherein said cleaved probe accumulates at an exponential rate over time, and wherein the accumulation of said cleaved probe at an exponential rate over time indicates the presence of said first target nucleic acid in said sample. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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Specification
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Current AssigneeGen-Probe Incorporated (Hologic Incorporated)
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Original AssigneeThird Wave Technologies Incorporated (Hologic Incorporated)
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InventorsHall, Jeff G., Lyamichev, Victor I., Mast, Andrea L., Brow, Mary Ann D.
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Primary Examiner(s)LU, FRANK WEI MIN
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Application NumberUS10/033,297Publication NumberTime in Patent Office2,349 DaysField of Search435/6, 435/91.1, 435/183, 436/94, 536/23.1, 536/24.3, 536/24.33, 536/25.3, 536/25.33US Class Current435/6.1CPC Class CodesC12N 9/1252 DNA-directed DNA polymerase...C12N 9/22 Ribonucleases RNAses, DNAse...C12Q 1/6816 characterised by the detect...C12Q 1/6823 Release of bound markersC12Q 1/6827 for detection of mutation o...C12Q 1/683 involving restriction enzym...C12Q 1/70 involving virus or bacterio...C12Q 1/701 Specific hybridization probesC12Q 2521/301 EndonucleaseC12Q 2525/131 incorporating a restriction...C12Q 2525/143 incorporating a promoter se...C12Q 2525/155 incorporating/generating a ...C12Q 2525/186 incorporating a non-extenda...C12Q 2537/149 Sequential reactionsC12Q 2561/109 Invader technology
