Methods for selectively isolating DNA using rolling circle amplification
First Claim
1. A method of circularizing and amplifying large fragments of DNA comprising:
- (a) providing a DNA-adapter construct which has a DNA fragment ligated to an adapter, wherein the adapter comprises first, second, and third oligonucleotides, wherein the first and the second oligonucleotides are annealed to the third oligonucleotide, wherein a gap is present between the first and the second oligonucleotides annealed to the third oligonucleotide, and wherein the second oligonucleotide has a 5′
region present at the gap that is noncomplementary to the third oligonucleotide, and wherein first and second ends of the DNA fragment are ligated to first and second ends of the adapter to form a circle; and
(b) amplifying the DNA-adapter construct using DNA pol III in a rolling circle amplification.
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Abstract
DNA containing nucleotide base mispairs can be isolated using a modified rolling circle amplification procedure. Specific Y-shaped adapters permit the selective circularization of these fragments with a complementary splint oligonucleotide. Rolling circle amplification is then carried out with a DNA polymerase. Rolling circle amplification can also be carried out using a mixture of DNA circles having different lengths. Genetic phase of linked DNA markers can be determined by selective amplification of one parental haplotype. DNA fragments can also be converted into a form that can be utilized as rolling circle amplification templates by ligation of hairpin forming adapters to the ends of the fragments. Two or more DNA polymerases can be used in a rolling circle amplification reaction. DNA polymerase III has special properties that improve rolling circle amplification.
107 Citations
6 Claims
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1. A method of circularizing and amplifying large fragments of DNA comprising:
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(a) providing a DNA-adapter construct which has a DNA fragment ligated to an adapter, wherein the adapter comprises first, second, and third oligonucleotides, wherein the first and the second oligonucleotides are annealed to the third oligonucleotide, wherein a gap is present between the first and the second oligonucleotides annealed to the third oligonucleotide, and wherein the second oligonucleotide has a 5′
region present at the gap that is noncomplementary to the third oligonucleotide, and wherein first and second ends of the DNA fragment are ligated to first and second ends of the adapter to form a circle; and
(b) amplifying the DNA-adapter construct using DNA pol III in a rolling circle amplification. - View Dependent Claims (2, 3, 4, 5)
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6. A method of circularizing and amplifying large fragments of DNA comprising:
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providing a DNA-adapter construct which has a double-stranded DNA fragment ligated to an adapter, wherein the adapter (a) lacks a phosphate at one end, (b) has a 3′
-dideoxy terminus or other terminal group that blocks extension by a DNA polymerase, or (c) has an internal gap, wherein a first strand but not a second strand of the DNA fragment is circularized by the adapter;
amplifying the DNA-adapter construct using DNA pol III in a rolling circle amplification reaction to form a single-stranded amplification product; and
amplifying the single-stranded amplification product with a primer complementary at its 3′
end to an allelic form of a heterozygous marker, wherein the allelic form is present in the DNA fragment.
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Specification
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Current AssigneeMolecular Staging Inc. (Qiagen NV), Yale University
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Original AssigneeMolecular Staging Inc. (Qiagen NV), Yale University
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InventorsWeissman, Sherman, Lasken, Roger
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Primary Examiner(s)Whisenant, Ethan
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Assistant Examiner(s)LU, FRANK WEI MIN
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Application NumberUS09/818,927Publication NumberTime in Patent Office804 DaysField of Search435/6, 435/91.1, 435/91.2, 435/183, 436/94, 536/23.1, 536/24.3, 536/24.33, 536/25.3, 536/25.32US Class Current435/91.2CPC Class CodesC12Q 1/6827 for detection of mutation o...C12Q 1/6855 Ligating adaptorsC12Q 2525/191 incorporating an adaptorC12Q 2531/125 Rolling circleY10T 436/143333 Saccharide [e.g., DNA, etc.]
