Method for functional testing of site-specific DNA methylation
First Claim
1. A method for determining the effect of C-5 methylating one or more predetermined cytosine nucleotide residues of a deoxyribonucleic acid (DNA) on expression of a gene of interest comprising the steps of:
- a) denaturing a circular double-stranded DNA construct, wherein a cytosine residue of one of the strands of the circular DNA construct corresponds to the predetermined cytosine nucleotide residue and wherein the circular DNA construct comprises a nucleotide sequence identical to the gene of interest;
b) hybridizing each of a pair of primers to separate strands of the denatured circular DNA construct, wherein each primer comprises a 5′
phosphate, and wherein at least one of the primers is C-5 methylated at a cytosine nucleotide residue thereof which is (i) immediately 5′
to a guanine nucleotide residue of the primer, and (ii) complementary to a guanine nucleotide residue of the strand of the circular DNA construct immediately 3′
to the cytosine nucleotide residue of the DNA construct which corresponds to the predetermined cytosine nucleotide residue;
c) contacting the hybridized primers resulting from step b) with a DNA polymerase, deoxynucleoside triphosphates, and a plurality of copies of the pair of primers under conditions permitting a polymerase chain reaction to occur, thereby producing a plurality of nicked copies of the circular DNA construct, wherein each strand of each nicked copy incorporates a primer comprising a 5′
phosphate and wherein at least one strand of each nicked copy incorporates the C-5 methylated primer;
d) contacting at least one copy of the plurality of nicked copies with a DNA ligase so as to form a phosphodiester bond between the 5′
phosphate of each incorporated primer of each strand and each respective 3′
end of each strand of the at least one copy so as to thereby form a copy of the circular DNA construct;
e) contacting the copy of the circular DNA construct with a methyltransferase enzyme so as to thereby C-5 methylate the cytosine nucleotide residue immediately 5′
to the guanine nucleotide residue which is hybridized to the C-5 methylated cytosine nucleotide residue of the C-5 methylated primer incorporated into the copy of the circular DNA construct;
f) transfecting a cell with the C-5 methylated circular DNA construct resulting from step e); and
g) quantifying expression by the cell of the gene of interest,thereby determining the effect of C-5 methylating the one or more predetermined cytosine nucleotide residues of the deoxyribonucleic acid on expression of the gene of interest.
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Accused Products
Abstract
Methods and kits are provided for testing the functional effect of methylating different cytosine residues, for testing patterns of DNA methylation on gene expression, and for site-specific methylation, as well as methylated DNA constructs. Methods are provided that include steps of denaturing a circular double-stranded DNA construct; hybridizing primers to separate strands of the denatured circular DNA construct; contacting the hybridized primers with a DNA polymerase, deoxynucleoside triphosphates, and copies of the primers; contacting nicked copies with a DNA ligase so as to form a copy of the circular DNA construct; contacting the copy of the circular DNA construct with a methyltransferase enzyme; transfecting a cell with C-5 methylated circular DNA construct; and quantifying expression of a gene of interest, thereby determining the effect of C-5 methylating cytosine nucleotide residues of DNA on expression of the gene of interest.
2 Citations
20 Claims
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1. A method for determining the effect of C-5 methylating one or more predetermined cytosine nucleotide residues of a deoxyribonucleic acid (DNA) on expression of a gene of interest comprising the steps of:
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a) denaturing a circular double-stranded DNA construct, wherein a cytosine residue of one of the strands of the circular DNA construct corresponds to the predetermined cytosine nucleotide residue and wherein the circular DNA construct comprises a nucleotide sequence identical to the gene of interest; b) hybridizing each of a pair of primers to separate strands of the denatured circular DNA construct, wherein each primer comprises a 5′
phosphate, and wherein at least one of the primers is C-5 methylated at a cytosine nucleotide residue thereof which is (i) immediately 5′
to a guanine nucleotide residue of the primer, and (ii) complementary to a guanine nucleotide residue of the strand of the circular DNA construct immediately 3′
to the cytosine nucleotide residue of the DNA construct which corresponds to the predetermined cytosine nucleotide residue;c) contacting the hybridized primers resulting from step b) with a DNA polymerase, deoxynucleoside triphosphates, and a plurality of copies of the pair of primers under conditions permitting a polymerase chain reaction to occur, thereby producing a plurality of nicked copies of the circular DNA construct, wherein each strand of each nicked copy incorporates a primer comprising a 5′
phosphate and wherein at least one strand of each nicked copy incorporates the C-5 methylated primer;d) contacting at least one copy of the plurality of nicked copies with a DNA ligase so as to form a phosphodiester bond between the 5′
phosphate of each incorporated primer of each strand and each respective 3′
end of each strand of the at least one copy so as to thereby form a copy of the circular DNA construct;e) contacting the copy of the circular DNA construct with a methyltransferase enzyme so as to thereby C-5 methylate the cytosine nucleotide residue immediately 5′
to the guanine nucleotide residue which is hybridized to the C-5 methylated cytosine nucleotide residue of the C-5 methylated primer incorporated into the copy of the circular DNA construct;f) transfecting a cell with the C-5 methylated circular DNA construct resulting from step e); and g) quantifying expression by the cell of the gene of interest, thereby determining the effect of C-5 methylating the one or more predetermined cytosine nucleotide residues of the deoxyribonucleic acid on expression of the gene of interest. - View Dependent Claims (2, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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3. A method for making a deoxyribonucleic acid (DNA) which is C-5 methylated at a predetermined cytosine nucleotide residue thereof comprising the steps of:
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a) denaturing a circular double-stranded DNA construct, wherein a cytosine residue of one of the strands of the circular DNA construct corresponds to the predetermined cytosine nucleotide residue; b) hybridizing each of a pair of primers to separate strands of the denatured circular DNA construct, wherein each primer comprises a 5′
phosphate, and wherein at least one of the primers is C-5 methylated at a cytosine nucleotide residue thereof which is (i) immediately 5′
to a guanine nucleotide residue of the primer, and (ii) complementary to a guanine nucleotide residue of the strand of the circular DNA construct immediately 3′
to the cytosine nucleotide residue of the DNA construct which corresponds to the predetermined cytosine nucleotide residue;c) contacting the hybridized primers resulting from step b) with a DNA polymerase, deoxynucleoside triphosphates, and a plurality of copies of the pair of primers under conditions permitting a polymerase chain reaction to occur, thereby producing a plurality of nicked copies of the circular DNA construct, wherein each strand of each nicked copy incorporates a primer comprising a 5′
phosphate and wherein at least one strand of each nicked copy incorporates the C-5 methylated primer;d) contacting at least one copy of the plurality of nicked copies with a DNA ligase so as to form a phosphodiester bond between the 5′
phosphate of each incorporated primer of each strand and each respective 3′
end of each strand of the at least one copy so as to thereby form a copy of the circular DNA construct; ande) contacting the copy of the circular DNA construct with a methyltransferase enzyme so as to thereby C-5 methylate the cytosine nucleotide residue immediately 5′
to the guanine nucleotide residue which is hybridized to the C-5 methylated cytosine nucleotide residue of the C-5 methylated primer incorporated into the copy of the circular DNA construct,so as to thereby make the deoxyribonucleic acid which is C-5 methylated at the predetermined cytosine nucleotide residue. - View Dependent Claims (20)
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Specification