DNA ligation on RNA template
First Claim
1. A method for detecting a plurality of target nucleic acids from a nucleic acid sample, comprising:
- a) contacting a DNA array-bound probe with;
(i) a DNA interrogation probe, and(ii) an RNA nucleic acid sample comprising at least one target nucleic acid,wherein the array-bound probe and the interrogation probe hybridize to the target nucleic acid such that the 3′
end of the array-bound probe and the 5′
end of the interrogation probe are directly adjacent to one another and ligatable by DNA ligase, and wherein the interrogation probe contains a detectable label;
b) adding an effective amount of ATP to a solution of at least two different DNA ligase enzymes, thereby charging the at least one of the at least two different DNA ligase enzymes to form a DNA ligase-AMP intermediate complex,wherein the at least two different DNA ligase enzymes comprise at least a first ligase which when charged to form a DNA ligase-AMP intermediate complex possesses activity to form a 5′
to 5′
pyrophosphate bond on the interrogation probe 5′
terminus, and at least a second ligase which is a mutant ligase unable to form a DNA ligase-AMP intermediate complex, but which possesses an activity of forming a covalent phosphodiester bond from the 5′
to 5′
pyrophosphate bond of the interrogation probe and the 3′
hydroxyl terminus of the array-bound probe;
c) depleting ATP from the solution of at least two different DNA ligase enzymes;
d) adding the solution of at least two different DNA ligase enzymes to step a), thereby ligating the 3′
end of the array-bound probe to the 5′
end of the interrogation probe; and
e) detecting the ligated product.
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Accused Products
Abstract
Disclosed are methods and compositions for detection and amplification of nucleic acids, wherein two DNA strands hybridized to an RNA strand are ligated. In one aspect, the disclosed methods include removal of an energy source, such as ATP, upon charging a ligase to form an enzyme-AMP intermediate, and then adding substrate, which results in one complete round of RNA-templated DNA ligation. In another aspect, the ligation reaction is accomplished by use of a mixture of at least two different ligase enzymes. The disclosed methods and compositions for RNA-templated DNA ligation may be particularly useful for detection of RNA sequence variants, for example RNA splice variants, and for quantitative expression analysis.
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Citations
23 Claims
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1. A method for detecting a plurality of target nucleic acids from a nucleic acid sample, comprising:
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a) contacting a DNA array-bound probe with; (i) a DNA interrogation probe, and (ii) an RNA nucleic acid sample comprising at least one target nucleic acid, wherein the array-bound probe and the interrogation probe hybridize to the target nucleic acid such that the 3′
end of the array-bound probe and the 5′
end of the interrogation probe are directly adjacent to one another and ligatable by DNA ligase, and wherein the interrogation probe contains a detectable label;b) adding an effective amount of ATP to a solution of at least two different DNA ligase enzymes, thereby charging the at least one of the at least two different DNA ligase enzymes to form a DNA ligase-AMP intermediate complex, wherein the at least two different DNA ligase enzymes comprise at least a first ligase which when charged to form a DNA ligase-AMP intermediate complex possesses activity to form a 5′
to 5′
pyrophosphate bond on the interrogation probe 5′
terminus, and at least a second ligase which is a mutant ligase unable to form a DNA ligase-AMP intermediate complex, but which possesses an activity of forming a covalent phosphodiester bond from the 5′
to 5′
pyrophosphate bond of the interrogation probe and the 3′
hydroxyl terminus of the array-bound probe;c) depleting ATP from the solution of at least two different DNA ligase enzymes; d) adding the solution of at least two different DNA ligase enzymes to step a), thereby ligating the 3′
end of the array-bound probe to the 5′
end of the interrogation probe; ande) detecting the ligated product. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of detecting a plurality of target nucleic acids from a nucleic acid sample, comprising:
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a) contacting an open circle DNA probe with an RNA nucleic acid sample comprising at least one target nucleic acid, wherein the open circle probe comprises a 5′
end and a 3′
end, and wherein the open circle probe contains a detectable label;b) adding an effective amount of ATP to a solution of at least two different DNA ligase enzymes, thereby charging the at least one of the at least two different DNA ligase enzymes to form a DNA ligase-AMP intermediate complex, wherein the at least two different DNA ligase enzymes comprise at least a first ligase which when charged to form a DNA ligase-AMP intermediate complex possesses activity to form a 5′
to 5′
pyrophosphate bond on the interrogation probe 5′
terminus, and at least a second ligase which is a mutant ligase unable to form a DNA ligase-AMP intermediate complex, but which possesses an activity of forming a covalent phosphodiester bond from the 5′
to 5′
pyrophosphate bond of the interrogation probe and the 3′
hydroxyl terminus of the array-bound probe;c) depleting ATP from the solution of DNA ligase-AMP intermediate; d) adding the solution of DNA ligase-AMP intermediate to step a), thereby ligating the 5′
end of the open circle probe to the 3′
end of the open circle probe; ande) detecting the ligated product. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. A method for detecting a plurality of target nucleic acids from a nucleic acid sample, comprising:
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a) contacting a DNA array-bound probe with; (i) a DNA interrogation probe, and (ii) a DNA nucleic acid sample comprising at least one target nucleic acid, wherein the array-bound probe and the interrogation probe hybridize to the target nucleic acid such that the 3′
end of the array-bound probe and the 5′
end of the interrogation probe are directly adjacent to one another and ligatable by DNA ligase, and wherein the interrogation probe contains a detectable label;b) adding an effective amount of ATP to a solution of at least two different DNA ligase enzymes, thereby charging the at least one of the at least two different DNA ligase enzymes to form a DNA ligase-AMP intermediate complex, wherein the at least two different DNA ligase enzymes comprise at least a first ligase which when charged to form a DNA ligase-AMP intermediate complex possesses activity to form a 5′
to 5′
pyrophosphate bond on the interrogation probe 5′
terminus, and at least a second ligase which is a mutant ligase unable to form a DNA ligase-AMP intermediate complex, but which possesses an activity of forming a covalent phosphodiester bond from the 5′
to 5′
pyrophosphate bond of the interrogation probe and the 3′
hydroxyl terminus of the array-bound probe;c) depleting ATP from the solution of at least two different DNA ligase enzymes; d) adding the solution of at least two different DNA ligase enzymes to step a), thereby ligating the 3′
end of the array-bound probe to the 5′
end of the interrogation probe; ande) detecting the ligated product. - View Dependent Claims (19, 20, 21, 22, 23)
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Specification