Kit for together detecting multiple target nucleic acids differing from each other and detection method using the same
Abstract
Provided is a kit for detecting multiple target nucleic acids capable of simultaneously amplifying and detecting multiple genes by means of one reaction vessel containing one kind of reaction solution and one kind of labels. Solution may contain first target nucleic acid ( 10 ) and second target nucleic acid ( 20 ) each of which dissociates at denaturation temperature T 0 . The solution further contains: DNA polymerase ( 30 ); a first target's primer ( 13 ) at annealing temperature T 1 bonding with first single strands derived from the first target nucleic acid; a second target's primer ( 23 ) at annealing temperature T 1 bonding with second single strands derived from the second target nucleic acid; a first target's probe ( 15 ) at annealing temperature TI bonding with the first single strands derived from the first target nucleic acid; and a second target's probe ( 25 ) at second target detection temperature T 3 which is lower than the annealing temperature T 1 and elongation temperature T 2 bonding with the second single strands derived from the second target nucleic acid. A condition that: T 0 is higher than T 2 ; T 2 is not lower than T 1 ; and T 1 is higher than T 3 is satisfied.
Claims
exact text as granted — not AI-modified1 . A kit for together detecting multiple target nucleic acids differing from each other, the kit comprising:
solution, the multiple target nucleic acids including a first target nucleic acid and a second target nucleic acid; defining: T 0 as denaturation temperature; T 1 as annealing temperature; T 2 as elongation temperature; and T 3 as second target detection temperature, T 0 through T 3 being set up such that a condition that: T 0 is higher than T 2 ; T 2 is not lower than T 1 ; and T 1 is higher than T 3 is satisfied; the solution being capable of containing the first target nucleic acid and the second target nucleic acid therein, at the denaturation temperature T 0 , first double-stranded hydrogen bond of the first target nucleic acid being cut off to be dissociate into first two single strands, second double-stranded hydrogen bond of the second target nucleic acid being cut off to be dissociate into second two single strands, respectively, the solution further containing therein: a first target's primer at the annealing temperature T 1 specifically bonding with either of the first two single strands into which the first target nucleic acid has been dissociated; a second target's primer at the annealing temperature T 1 specifically bonding with either of the second two single strands into which the second target nucleic acid has been dissociated; a first target's probe at the annealing temperature T 1 specifically bonding with either of the first two single strands into which the first target nucleic acid has been dissociated, the first target's probe including a first labeling substance changing first fluorescent signals thereof when the first target's probe specifically bonds with either of the first two single strands; DNA polymerase; deoxyribonucleoside triphoshate at the elongation temperature T 2 bonding by action of the DNA polymerase with both of the first two single strands into which the first target nucleic acid has been dissociated and the second two single strands into which the second target nucleic acid has been dissociated; and a second target's probe at the annealing temperature T 1 bonding with neither the first two single strands into which the first target nucleic acid has been dissociated nor the second two single strands into which the second target nucleic acid has been dissociated, the second target's probe at the second target detection temperature T 3 bonding with the second two single strands into which the second target nucleic acid has been dissociated, the second target's probe including a second labeling substance changing second fluorescent signals thereof when the second target's probe specifically bonds with either of the second two single strands.
2 . The kit for together detecting multiple target nucleic acids differing from each other as defined in claim 1 , wherein each of the first labeling substance and the second labeling substance is selected from a group consisting of: a QProbe (registered trademark) probe; an Eprobe (registered trademark) probe; and a TaqMan (registered trademark) probe.
3 . The kit for together detecting multiple target nucleic acids differing from each other as defined in claim 1 , wherein the fluorescent signals are shown by quenching light when the annealing occurs.
4 . The kit for together detecting multiple target nucleic acids differing from each other as defined in claim 1 , wherein the fluorescent signals are shown by emitting light when the annealing occurs.
5 . The kit for together detecting multiple target nucleic acids differing from each other as defined in claim 1 , wherein the first target nucleic acid is a Mycoplasma pneumoniae P1 genes and the second target nucleic acid is internal control composition.
6 . The kit for together detecting multiple target nucleic acids differing from each other as defined in claim 1 , wherein the first target nucleic acid is a Chlamydia trachomatis endogeneous plasmid gene and the second target nucleic acid is a Nisseria gonorrhoeae CMT gene.
7 . A detection method, comprising:
using the kit for together detecting multiple target nucleic acids differing from each other as defined in claim 1 ; a dissociating step of increasing temperature of the solution to the denaturation temperature T 0 so as to dissociate the first target nucleic acid into the first two single strands, and to dissociate the second target nucleic acid into the second two single strands respectively; a first target nucleic acid detecting step of decreasing the temperature of the solution to the annealing temperature T 1 so as to detect whether or not the first target nucleic acid is contained in the solution based on the first fluorescent signals shown by the first target's probe; an amplification step of setting up the temperature of the solution to the elongation temperature T 2 so as to amplify the first two single strands into which the first target nucleic acid has been dissociated and the second two single strands into which the second target nucleic acid has been dissociated, respectively; and a second target nucleic acid detecting step of decreasing the temperature of the solution to the second target detection temperature T 3 so as to detect whether or not the second target nucleic acid is contained in the solution based on the second fluorescent signals shown by the second target's probe.Cited by (0)
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