Determination of methylation of nucleic acid sequences
First Claim
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1. A method for detecting a methylated cytosine in a template nucleic acid, the method comprising:
- (a) providing a hairpin-template complex, comprising;
(i) a hairpin nucleic acid, wherein the hairpin nucleic acid is self-complementary and has a first restriction site for a nicking endonuclease, said restriction site comprising a recognition sequence and a cleavage site, wherein said recognition sequence is situated so that said cleavage site is before, at, or beyond the 3′
end of the hairpin nucleic acid, and wherein said hairpin nucleic acid is a self-hybrid; and
(ii) a single-stranded template nucleic acid;
wherein 5′
end of the hairpin nucleic acid is attached to the 3′
end of the single-stranded template nucleic acid;
(b) sequencing the single-stranded template nucleic acid of the hairpin-template complex, thereby producing;
(ii) a first sequence; and
(i) a hairpin-template-complement complex, comprising the hairpin-template complex of (a), and further comprising a synthetic nucleic acid strand complementary to the template nucleic acid, wherein the synthetic nucleic acid strand is hybridized to the template nucleic acid, and wherein the complementary nucleic acid strand is attached at its 5′
end to the 3′
end of the hairpin nucleic acid;
(c) removing the complementary nucleic acid strand from the hairpin-template-complement complex, thereby recovering the hairpin-template complex;
(d) treating the hairpin-template complex with sodium bisulfite, thereby producing a sodium bisultite-treated template nucleic acid;
(e) sequencing the sodium bisulfite-treated template nucleic acid of (c), thereby producing a second sequence; and
(f) comparing the first sequence and the second sequence, where the presence of a cytosine in the second sequence indicates that the cytosine at that position is methylated;
thereby detecting a methylated cytosine in the template nucleic acid.
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Abstract
The invention relates to a method of detecting the precise locations of methyl-cytosines in a given nucleic acid sequence. In particular, the invention features a method which includes sequencing a template nucleic acid that is attached to a hairpin nucleic acid or double-stranded nucleic acid anchor, which contain specifically-designed sites for nicking or other endonucleases. The template nucleic acid is then regenerated to single-stranded form via methods described herein, and then treated to convert either the methylated cytosines, or non-methylated cytosines, and the template nucleic acid is then re-sequenced The results of the first and second sequencing reactions are then compared.
14 Citations
26 Claims
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1. A method for detecting a methylated cytosine in a template nucleic acid, the method comprising:
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(a) providing a hairpin-template complex, comprising;
(i) a hairpin nucleic acid, wherein the hairpin nucleic acid is self-complementary and has a first restriction site for a nicking endonuclease, said restriction site comprising a recognition sequence and a cleavage site, wherein said recognition sequence is situated so that said cleavage site is before, at, or beyond the 3′
end of the hairpin nucleic acid, and wherein said hairpin nucleic acid is a self-hybrid; and
(ii) a single-stranded template nucleic acid;
wherein 5′
end of the hairpin nucleic acid is attached to the 3′
end of the single-stranded template nucleic acid;
(b) sequencing the single-stranded template nucleic acid of the hairpin-template complex, thereby producing;
(ii) a first sequence; and
(i) a hairpin-template-complement complex, comprising the hairpin-template complex of (a), and further comprising a synthetic nucleic acid strand complementary to the template nucleic acid, wherein the synthetic nucleic acid strand is hybridized to the template nucleic acid, and wherein the complementary nucleic acid strand is attached at its 5′
end to the 3′
end of the hairpin nucleic acid;
(c) removing the complementary nucleic acid strand from the hairpin-template-complement complex, thereby recovering the hairpin-template complex;
(d) treating the hairpin-template complex with sodium bisulfite, thereby producing a sodium bisultite-treated template nucleic acid;
(e) sequencing the sodium bisulfite-treated template nucleic acid of (c), thereby producing a second sequence; and
(f) comparing the first sequence and the second sequence, where the presence of a cytosine in the second sequence indicates that the cytosine at that position is methylated;
thereby detecting a methylated cytosine in the template nucleic acid. - View Dependent Claims (2)
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3. An addressable array comprising a hairpin-template complex, comprising:
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(a) a hairpin nucleic acid, wherein the hairpin nucleic acid is self-complementary and has a first restriction site for a nicking endonuclease, said restriction site comprising a recognition sequence and a cleavage site, wherein said recognition sequence is situated so that said cleavage site is before, at, or beyond the 3′
end of the hairpin nucleic acid, and wherein said hairpin nucleic acid is a self-hybrid, and wherein the hairpin nucleic acid is attached to a solid substrate; and
(b) a single-stranded template nucleic acid, wherein the 5′
end of the hairpin nucleic acid is attached to the 3′
end of the single-stranded template nucleic acid. - View Dependent Claims (4, 5, 6, 7, 8, 9)
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10. A method for detecting a methylated cytosine in a template nucleic acid, the method comprising:
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(a) providing an anchor-template complex, comprising;
(i) a double-stranded nucleic acid anchor, wherein the double-stranded nucleic acid anchor comprises;
(A) a first end and a second end; and
(B) a first restriction site for a nicking endonuclease, said restriction site comprising a recognition sequence and a cleavage site, wherein said cleavage site is situated so that said cleavage site is before, at, or beyond the 3′
end of the first end of the double-stranded nucleic acid anchor; and
(ii) a single-stranded template nucleic acid;
wherein the 5′
end of the first end of the double-stranded nucleic acid anchor is attached to the 3′
end of the single-stranded template nucleic acid;
(b) sequencing the single-stranded template nucleic acid of the anchor-template complex, thereby producing;
(i) a first sequence; and
(ii) an anchor-template-complement complex, comprising the anchor-template complex of (a), and further comprising a synthetic nucleic acid strand complementary to the template nucleic acid, wherein the synthetic nucleic acid strand is hybridized to the template nucleic acid, and wherein the complementary nucleic acid strand is attached at its 5′
end to the 3′
end of the first end of the double-stranded nucleic acid anchor;
(c) removing the complementary nucleic acid strand from the anchor-template-complement complex, thereby recovering the anchor-template complex;
(d) treating the anchor-template complex with sodium bisulfite, thereby producing a sodium bisulfite-treated anchor-template complex;
(e) sequencing the sodium bisulfite-treated anchor-template complex of (d), thereby producing a second sequence; and
(f) comparing the first sequence and the second sequence, where the presence of a cytosine in the second sequence indicates that the cytosine at that position in the template nucleic acid is methylated;
thereby detecting a methylated cytosine in the template nucleic acid. - View Dependent Claims (11)
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12. An addressable array comprising an anchor-template complex, comprising:
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(a) a double-stranded nucleic acid anchor, wherein the double-stranded nucleic acid anchor comprises;
(i) a first end and a second end; and
(ii) a first restriction site for a nicking endonuclease, said restriction site comprising a recognition sequence and a cleavage site, wherein said cleavage site is situated so that said cleavage site is before, at, or beyond the 3′
end of the first end of the double-stranded nucleic acid anchor; and
(b) a single-stranded template nucleic acid;
wherein the 5′
end of the first end of the double-stranded nucleic acid anchor is attached to the 3′
end of the single-stranded template nucleic acid. - View Dependent Claims (13, 14, 15, 16, 17, 18)
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19. A method for detecting a methylated cytosine in a template nucleic acid of known sequence, the method comprising:
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(a) providing a hairpin-template complex, comprising;
(i) a hairpin nucleic acid, wherein the hairpin nucleic acid is self-complementary and has a first restriction site for a nicking endonuclease, said restriction site comprising a recognition sequence and a cleavage site, wherein said recognition sequence is situated so that said cleavage site is before, at, or beyond the 3′
end of the hairpin nucleic acid, and wherein said hairpin nucleic acid is a self-hybrid; and
(ii) a single-stranded template nucleic acid;
wherein 5′
end of the hairpin nucleic acid is attached to the 3′
end of the single-stranded template nucleic acid;
(b) treating the hairpin-template complex with sodium bisulfite, thereby producing a sodium bisulfite-treated template nucleic acid;
(c) sequencing the sodium bisulfite-treated template nucleic acid of (b), thereby producing a sequence; and
(d) comparing the sequence of (c) and the known sequence, where the presence of a cytosine in the sequence of (c) indicates that the cytosine at that position is methylated;
thereby detecting a methylated cytosine in the template nucleic acid of known sequence. - View Dependent Claims (20)
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21. A method for detecting a methylated cytosine in a template nucleic acid of known sequence, the method comprising:
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(a) providing an anchor-template complex, comprising;
(i) a double-stranded nucleic acid anchor, wherein the double-stranded nucleic acid anchor comprises;
(A) a first end and a second end; and
(B) a first restriction site for a nicking endonuclease, said restriction site comprising a recognition sequence and a cleavage site, wherein said cleavage site is situated so that said cleavage site is before, at, or beyond the 3′
end of the first end of the double-stranded nucleic acid anchor, and(ii) a single-stranded template nucleic acid;
wherein the 5′
end of the first end of the double-stranded nucleic acid anchor is attached to the 3′
end of the single-stranded template nucleic acid;
(b) treating the anchor-template complex with sodium bisulfite, thereby producing a sodium bisulfite-treated anchor-template complex;
(c) sequencing the sodium bisulfite-treated anchor-template complex of (b), thereby producing a sequence; and
(d) comparing the sequence of (c) and the known sequence, where the presence of a cytosine in the sequence of (c) indicates that the cytosine at that position in the template nucleic acid is methylated;
thereby detecting a methylated cytosine in the template nucleic acid. - View Dependent Claims (22)
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23. A method for detecting a methylated cytosine in a template nucleic acid of known sequence, wherein one or more of the cytosines in the template nucleic acid have been converted to uracil, the method comprising:
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(a) providing a hairpin-template complex, comprising;
(i) a hairpin nucleic acid, wherein the hairpin nucleic acid is self-complementary and has a first restriction site for a nicking endonuclease, said restriction site comprising a recognition sequence and a cleavage site, wherein said recognition sequence is situated so that said cleavage site is before, at, or beyond the 3′
end of the hairpin nucleic acid, and wherein said hairpin nucleic acid is a self-hybrid; and
(ii) a single-stranded template nucleic acid;
wherein 5′
end of the hairpin nucleic acid is attached to the 3′
end of the single-stranded template nucleic acid;
(b) sequencing the template nucleic acid, thereby producing a sequence; and
c) comparing the sequence of (b) and the known sequence, where the presence of a cytosine in the sequence of (b) indicates that the cytosine at that position is methylated;
thereby detecting a methylated cytosine in the template nucleic acid of known sequence. - View Dependent Claims (24)
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25. A method for detecting a methylated cytosine in a template nucleic acid of known sequence, wherein one or more of the cytosines in the template nucleic acid have been converted to uracil, the method comprising:
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(a) providing an anchor-template complex, comprising;
(i) a double-stranded nucleic acid anchor, wherein the double-stranded nucleic acid anchor comprises;
(A) a first end and a second end; and
(B) a first restriction site for a nicking endonuclease, said restriction site comprising a recognition sequence and a cleavage site, wherein said cleavage site is situated so that said cleavage site is before, at, or beyond the 3′
end of the first end of the double-stranded nucleic acid anchor; and
(ii) a single-stranded template nucleic acid;
wherein the 5′
end of the first end of the double-stranded nucleic acid anchor is attached to the 3′
end of the single-stranded template nucleic acid;
(b) sequencing the anchor-template complex, thereby producing a sequence; and
(c) comparing the sequence of (b) and the known sequence, where the presence of a cytosine in the sequence of (b) indicates that the cytosine at that position in the template nucleic acid is methylated;
thereby detecting a methylated cytosine in the template nucleic acid. - View Dependent Claims (26)
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Specification
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Current AssigneeSolexa Ltd. (Illumina Incorporated)
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Original AssigneeSolexa Ltd. (Illumina Incorporated)
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InventorsGormley, Niall
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Application NumberUS10/537,186Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current435/6.12CPC Class CodesB01J 2219/005 BeadsB01J 2219/00585 Parallel processesB01J 2219/00596 Solid-phase processesB01J 2219/00608 DNA chipsB01J 2219/00612 the surface being inorganicB01J 2219/00626 CovalentB01J 2219/00659 Two-dimensional arraysB01J 2219/00722 NucleotidesB01J 2219/00729 Peptide nucleic acids [PNA]C12Q 1/6827 for detection of mutation o...C12Q 1/6874 involving nucleic acid arra...C12Q 2521/307 Single strand endonucleaseC12Q 2523/125 Bisulfite(s)C12Q 2525/131 incorporating a restriction...C12Q 2525/301 Hairpin oligonucleotidesC12Q 2600/156 Polymorphic or mutational m...C40B 40/06 Libraries containing nucleo...
