Template-driven nucleic acid amplifications
First Claim
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1. A method for amplifying a target nucleic acid contained in a sample, the method comprising:
- (A) treating the sample under denaturing conditions to produce original single strand templates from the target nucleic acid;
(B) treating the original templates with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primers hybridize to a portion of the original templates and an extension product of the primers is synthesized which is complementary to the original templates;
(C) treating the sample again under denaturing conditions to separate the extension products from the original templates;
(D) treating the extension products and the original templates with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primers hybridize to a portion of the extension products and the original templates and an extension product of the primers is synthesized which is complementary to the extension products and the original templates, wherein extension of the primer on the extension products can be truncated, thereby producing a truncated extension product;
(E) treating the sample again under denaturing conditions to separate the extension products from their templates; and
(F) repeating steps (D) and (E) a sufficient number of times to result in detectable amplification of the target nucleic acid.
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Abstract
Truncated amplification (TA) provides high fidelity, template driven amplification of target nucleic acid molecules in which truncating oligonucleotides are used as primers to produce truncated terminal products that are in most, if not all, cases no more than three rounds of replication from the original template. In certain embodiments, TA can amplify target nucleic acids quadratically or geometrically, depending on the number of truncating oligonucleotides used for amplification.
13 Citations
59 Claims
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1. A method for amplifying a target nucleic acid contained in a sample, the method comprising:
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(A) treating the sample under denaturing conditions to produce original single strand templates from the target nucleic acid;
(B) treating the original templates with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primers hybridize to a portion of the original templates and an extension product of the primers is synthesized which is complementary to the original templates;
(C) treating the sample again under denaturing conditions to separate the extension products from the original templates;
(D) treating the extension products and the original templates with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primers hybridize to a portion of the extension products and the original templates and an extension product of the primers is synthesized which is complementary to the extension products and the original templates, wherein extension of the primer on the extension products can be truncated, thereby producing a truncated extension product;
(E) treating the sample again under denaturing conditions to separate the extension products from their templates; and
(F) repeating steps (D) and (E) a sufficient number of times to result in detectable amplification of the target nucleic acid. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method for amplifying a target nucleic acid contained in a sample, the method comprising:
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(A) treating the sample under denaturing conditions to produce an upstream-directed original template and a downstream-directed original template from the target nucleic acid;
(B) treating the upstream-directed original template with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the template and a downstream-directed extension product of the primer is synthesized which is complementary to the template;
(C) treating the downstream-directed original template with an oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the template and an upstream-directed extension product of the primer is synthesized which is complementary to the template;
(D) treating the sample again under denaturing conditions to separate the extension products from the original templates;
(E) treating the upstream-directed original template with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the template and a downstream-directed extension product of the primer is synthesized which is complementary to the template;
(F) treating the downstream-directed extension product of (B) with an oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the extension product and an upstream-directed extension product of the primer is synthesized which is complementary to the extension product of (B), wherein extension of the primer can be truncated, thereby producing a truncated extension product;
(G) treating the downstream-directed original template with an oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the template and an upstream-directed extension product of the primer is synthesized which is complementary to the template;
(H) treating the upstream-directed extension product of (C) with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the extension product of (C) and a downstream-directed extension product of the primer is synthesized which is complementary to the extension product of (C);
(I) treating the sample again under denaturing conditions to separate the extension products from their templates;
(J) thereafter treating during any subsequent primer extension reactions, each optionally followed by a denaturation and separation step, all upstream-directed original templates and upstream-directed extension products with a truncating oligonucleotide as a primer to produce non-truncated extension products of the primer which are complementary to the upstream-directed original templates and upstream-directed extension products, and treating all downstream-directed original templates with an oligonucleotide as a primer to produce non-truncated extension products of the primer which are complementary to the downstream-directed original template, and treating all downstream-directed extension products with an oligonucleotide as a primer from which truncated extension products of the primer can be produced which are complementary to the downstream-directed extension products, and wherein a sufficient number of amplification cycles occur to result in detectable amplification of the target nucleic acid. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. A method for amplifying a target nucleic acid contained in a sample, the method comprising:
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(A) treating the sample under denaturing conditions to produce an upstream-directed original template and a downstream-directed original template from the target nucleic acid;
(B) treating the downstream-directed original template with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the template and an upstream-directed extension product of the primer is synthesized which is complementary to the template;
(C) treating the upstream-directed original template with an oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the template and a downstream-directed extension product of the primer is synthesized which is complementary to the template;
(D) treating the sample again under denaturing conditions to separate the extension products from the original templates;
(E) treating the downstream-directed original template with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the template and an upstream-directed extension product of the primer is synthesized which is complementary to the template;
(F) treating the upstream-directed extension product of (B) with an oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the extension product and a downstream-directed extension product of the primer is synthesized which is complementary to the extension product of (B), wherein extension of the primer can be truncated, thereby producing a truncated extension product;
(G) treating the upstream-directed original template with an oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the template and a downstream-directed extension product of the primer is synthesized which is complementary to the template;
(H) treating the downstream-directed extension product of (C) with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to a portion of the extension product of (C) and an upstream-directed extension product of the primer is synthesized which is complementary to the extension product of (C);
(I) treating the sample again under denaturing conditions to separate the extension products from their templates;
(J) thereafter treating during any subsequent primer extension reactions, each optionally followed by a denaturation and separation step, all downstream-directed original templates and downstream-directed extension products with a truncating oligonucleotide as a primer to produce non-truncated extension products of the primer which are complementary to the downstream-directed original templates and downstream-directed extension products, and treating all upstream-directed original templates with an oligonucleotide as a primer to produce non-truncated extension products of the primer which are complementary to the upstream-directed original template, and treating all upstream-directed extension products with an oligonucleotide as a primer from which truncated extension products of the primer can be produced which are complementary to the upstream-directed extension products, and wherein a sufficient number of amplification cycles occur to result in detectable amplification of the target nucleic acid. - View Dependent Claims (24, 25, 26, 27, 28, 29, 30, 31, 32, 33)
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34. A method for amplifying a target nucleic acid contained in a sample, the method comprising:
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(A) treating the nucleic acid with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to the nucleic acid and an extension product of the primer is synthesized which is complementary to the nucleic acid;
(B) treating the sample under denaturing conditions to separate the extension product from the original template;
(C) treating the original template with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes thereto and an extension product of the primer is synthesized which is complementary with the original template;
(D) treating the extension product with an oligonucleotide or a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes thereto and an extension product of the primer is synthesized which is complementary to the extension product, wherein extension of the primer can be truncated, thereby producing a truncated extension product;
(E) treating the sample again under denaturing conditions to separate each of the extension products from its template; and
(F) repeating steps (C) to (E) a sufficient number of times to result in detectable amplification of the target nucleic acid. - View Dependent Claims (35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46)
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47. A method for producing a truncated nucleic acid during an amplification reaction, the method comprising:
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(A) treating a single strand template with a truncating oligonucleotide as a primer, along with nucleoside triphosphates and a polymerase under suitable conditions, such that the primer hybridizes to the template and an extension product of the primer is synthesized which is complementary to the template, wherein said truncating oligonucleotide can block replication of the primer-containing strand, thereby producing a truncated extension product;
(B) treating the sample under denaturing conditions to separate the extension product from its template;
(C) treating the extension product with an oligonucleotide or a truncating oligonucleotide as a primer, such that the primer hybridizes to the extension product and the truncated extension product referred to in step (A) is synthesized which is complementary to the extension product;
(D) optionally treating the sample under denaturing conditions to separate the extension product from the truncated extension product. - View Dependent Claims (48, 49, 50, 51, 52, 53, 54, 55, 56, 57)
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58. A kit for amplifying a target nucleic acid contained in a sample comprising:
one or more truncating oligonucleotides as primers, optionally an oligonucleotide as a primer, nucleoside triphosphates, a DNA polymerase, and suitable amplification reagents. - View Dependent Claims (59)
Specification