Loop probe hybridization assay for polynucleotide analysis
First Claim
1. A method for assaying a sample for an amplification product from a target polynucleotide, comprising:
- contacting the sample with an unlabelled probe polynucleotide attached to a substrate;
wherein the sample is suspected of containing the amplification product, and wherein the amplification product comprises a first label and a capture sequence;
wherein the probe polynucleotide comprises first and second complementary regions and a third region located between the first and second complementary regions, and further wherein the probe polynucleotide can form a stem-loop structure in which the first and second complementary regions hybridize to each other to form a stem and the third region forms a loop;
wherein at least a part of the third region is complementary to at least a part of the capture sequence, and wherein the probe polynucleotide preferentially hybridizes to the amplification product and thereby disrupt formation of the stem-loop structure under at least one set of hybridization conditions;
wherein said contacting takes place under said at least one set of hybridization conditions; and
determining if the first label is associated with the substrate to determine if the amplification product is present in the sample.
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Abstract
Methods, compositions and articles of manufacture for assaying a sample for a target polynucleotide and/or an amplification product therefrom are provided. The methods comprise contacting a sample suspected of containing the target polynucleotide with a polynucleotide that can bind specifically thereto; this polynucleotide is conjugated to a substrate, preferably an encoded bead conjugate. An amplification reaction can first be used to produce the amplification product from the target polynucleotide so that it can be used to indirectly assay for the target polynucleotide. An amplification product detection complex and method of forming the same are also provided. The methods are particularly useful in multiplex settings where a plurality of targets are present. Amplification product assay complexes and amplification product assay arrays are also provided, along with methods of forming the same. Kits comprising reagents for performing such methods are also provided.
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Citations
52 Claims
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1. A method for assaying a sample for an amplification product from a target polynucleotide, comprising:
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contacting the sample with an unlabelled probe polynucleotide attached to a substrate;
wherein the sample is suspected of containing the amplification product, and wherein the amplification product comprises a first label and a capture sequence;
wherein the probe polynucleotide comprises first and second complementary regions and a third region located between the first and second complementary regions, and further wherein the probe polynucleotide can form a stem-loop structure in which the first and second complementary regions hybridize to each other to form a stem and the third region forms a loop;
wherein at least a part of the third region is complementary to at least a part of the capture sequence, and wherein the probe polynucleotide preferentially hybridizes to the amplification product and thereby disrupt formation of the stem-loop structure under at least one set of hybridization conditions;
wherein said contacting takes place under said at least one set of hybridization conditions; and
determining if the first label is associated with the substrate to determine if the amplification product is present in the sample. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37)
applying a light source to the substrate that can excite the fluorophore; and
determining if a fluorescence emission from the fluorophore occurs from the substrate.
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30. The method of claim 1, wherein a result of determining if the first label is associated with the probe polynucleotide is used to determine if the target polynucleotide was present in the sample prior to production of the amplification product.
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31. The method of claim 1, wherein an amount of the first label associated with the probe polynucleotide is determined.
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32. The method of claim 23, wherein the amount of the first label associated with the probe polynucleotide is used to determine the amount of the target polynucleotide in the sample prior to production of the amplification product.
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33. The method of claim 8, wherein the hybridization of each of said different probe polynucleotides to its corresponding different amplification product can be separately determined through a different identified position at which each of said different probe polynucleotides is attached to the substrate.
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34. The method of claim 8, wherein each of said different amplification products comprises a corresponding different label and wherein the hybridization of each of said different amplification products to its corresponding different probe polynucleotide can be separately determined by determining if each corresponding different label is associated with the substrate.
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35. The method of claim 8, wherein the hybridization of each of said different probe polynucleotides to its corresponding different amplification product can be separately determined by the conditions under which it hybridizes.
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36. The method of claim 8, wherein each different amplification product comprises a label the same as the first label.
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37. The method of claim 8, wherein each different amplification product comprises a different label.
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38. A method of assaying a sample for a first amplification product from a first target polynucleotide, comprising:
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providing a first pair of first and second primers;
contacting the sample which is suspected of containing the first target polynucleotide with the first primer under conditions in which the first primer can hybridize to the target polynucleotide and can be extended to form a first primer extension product;
altering the sample conditions to allow dissociation of the first primer extension product from the first target polynucleotide;
contacting the sample with the second primer under conditions in which the second primer can hybridize to the first primer extension product and be extended to form a second primer extension product, wherein the second primer is complementary at its 3′
end to the first primer extension product at a position in the first primer extension product which is 3′
to the first primer;
wherein one of the first and second primer extension products thus formed is the first amplification product and comprises a first capture sequence and a first label;
altering the sample conditions to allow dissociation of the second primer extension product from the first primer extension product;
contacting the sample with a first unlabelled probe polynucleotide attached to a substrate under hybridization conditions in which the first probe polynucleotide can hybridize to the first amplification product;
wherein the first probe polynucleotide comprises first and second complementary regions and a third region located between the first and second complementary regions, and further wherein the first probe polynucleotide can form a stem-loop structure in which the first and second complementary regions hybridize to each other to form a stem and the third region forms a loop;
wherein at least a part of the third region is complementary to at least a part of the first capture sequence, and wherein the first probe polynucleotide preferentially hybridizes to the first amplification product to thereby disrupt formation of the stem-loop structure under the hybridization conditions; and
determining if the first label is associated with the first probe polynucleotide. - View Dependent Claims (39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49)
providing a second pair of third and fourth primers;
contacting the sample which is suspected of containing the second target polynucleotide with the third primer under conditions in which the third primer can hybridize to the second target polynucleotide and can be extended to form a third primer extension product;
altering the sample conditions to allow dissociation of the third primer extension product from the second target polynucleotide;
contacting the sample with the fourth primer under conditions in which the fourth primer can hybridize to the third primer extension product and be extended to form a fourth primer extension product, wherein the fourth primer is complementary at its 3′
end to the third primer extension product at a position in the third primer extension product which is 3′
to the third primer;
wherein one of the third and fourth primer extension products thus formed is the second amplification product and comprises a second capture sequence and a second label which may be the same as or different than the first label;
altering the sample conditions to allow dissociation of the fourth primer extension product from the third primer extension product;
contacting the sample with a second probe polynucleotide attached to a substrate, which may be the same as or different than the substrate to which the first probe polynucleotide is attached, under hybridization conditions in which the second probe polynucleotide can hybridize to the second amplification product;
wherein the second probe polynucleotide comprises first and second complementary regions and a third region located between the first and second complementary regions, and further wherein the second probe polynucleotide can form a stem-loop structure in which the first and second complementary regions hybridize to each other to form a stem and the third region forms a loop;
wherein at least a part of the third region of the second probe polynucleotide is complementary to at least a part of the second capture sequence, and wherein the second probe polynucleotide preferentially hybridizes to the second amplification product to thereby disrupt formation of the stem-loop structure under the hybridization conditions; and
determining if the second label is associated with the second probe polynucleotide.
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48. The method of claim 47, wherein the first and second amplification products are produced from a single locus.
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49. The method of claim 48, wherein the first and second amplification products differ by a single nucleotide.
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50. An amplification product assay complex comprising a substrate comprising an unlabelled probe polynucleotide hybridized to an amplification product from a target polynucleotide,
wherein the amplification product comprises a capture sequence and a label, wherein the probe polynucleotide comprises first and second complementary regions and a third region located between the first and second complementary regions, and further wherein the probe polynucleotide can form a stem-loop structure in which the first and second complementary regions hybridize to each other to form a stem and the third region forms a loop, wherein at least a part of the third region is hybridized to at least a part of the capture sequence, and wherein the stem-loop structure is not formed as a result of the probe polynucleotide being hybridized to the amplification product.
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51. A method of forming an amplification product assay complex, comprising:
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hybridizing the amplification product to an unlabelled probe polynucleotide attached to a substrate under a first set of hybridization conditions to form an amplification product assay complex;
wherein the amplification product comprises a first label and a first single-stranded capture sequence;
wherein the probe polynucleotide comprises first and second complementary regions and a third region located between the first and second complementary regions, and further wherein the probe polynucleotide can form a stem-loop structure in which the first and second complementary regions hybridize to each other to form a stem and the third region forms a loop;
wherein at least a part of the third region is complementary to at least a part of the capture sequence, and wherein the probe polynucleotide hybridizes to the amplification product and thereby disrupts formation of the stem-loop structure under the first set of hybridization conditions.
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52. An amplification product assay array comprising a plurality of different unlabelled probe polynucleotides attached to a substrate, wherein each of said different unlabelled probe polynucleotides is attached at an identifiable location on the substrate, wherein each of said different probe polynucleotides preferentially hybridizes to a corresponding different amplification product, each of said corresponding different amplification products comprising a label that can be the same or different as the label on the other different amplification products,
wherein each of said different probe polynucleotides comprises first and second complementary regions and a third region located between the first and second complementary regions, and further wherein each of said different probe polynucleotides can form a stem-loop structure in which the first and second complementary regions hybridize to each other to form a stem and the third region forms a loop; wherein at least a part of the third region of each of said different probe polynucleotides is complementary to at least a part of its corresponding different amplification product, and wherein each of said different probe polynucleotides can preferentially hybridize to its corresponding different amplification product and thereby disrupt formation of its stem-loop structure under at least one set of hybridization conditions.
Specification