Specific double-stranded probes for homogeneous detection of nucleic acid and their application methods

US 9,157,112 B2
Filed: 08/11/2010
Issued: 10/13/2015
Est. Priority Date: 10/10/2000
Status: Expired due to Fees

First Claim

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1. A homogeneous amplification and detection method for detecting, in a sample containing a first nucleic acid target sequence, a second target sequence differing from the first target sequence by at least one single nucleotide, comprising the steps of:

(a) preparing an amplification mixture that includes the sample, primers and other amplification reagents for amplifying said first and second target sequences, and a first quenched, double-stranded hybridization probe having a temperature window in which it is able to discriminate between said second target sequence and a sequence differing therefrom by as little as a single nucleotide, said first probe comprising(i) a first oligonucleotide that is labeled with a first fluorophores, that has a 3′

end blocked from being extendable by a polymerase, and that consists essentially of a first oligonucleotide sequence that is perfectly complementary to the second target sequence,(ii) a quencher-labeled second oligonucleotide that has a 3′

end blocked from being extendable by a polymerase and that consists essentially of a second oligonucleotide sequence that is perfectly complementary to said first oligonucleotide sequence but is shorter than said first oligonucleotide sequence by up to seven nucleotides, said labels arranged such that when said first probe is double-stranded, fluorescence from the first fluorophores is quenched;

(b) subjecting the amplification reaction mixture to an amplification reaction to create copies of the first target nucleic acid sequence and copies of the second target sequence, if the second target sequence is present in the sample;

(c) hybridizing the first oligonucleotide to copies of the second target nucleic acid sequence at a temperature within the temperature window at which the first probe hybridizes to the second target sequence but not to a sequence differing therefrom by as little as a single nucleotide, including said first target sequence; and

(d) detecting a fluorescent signal emitted by said first fluorophores upon stimulation, when the first oligonucleotide is so hybridized, said signal indicative of the presence in the sample of the second target sequence but not indicative of the presence in the sample of a sequence differing therefrom by as little as a single nucleotide, including the first target sequence.

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Abstract

Nucleic acid detection probes that comprise a pair of complementary, fluorophore/quencher labeled oligonucleotides, one of which is shorter than the other, are able to detect single-stranded and double-stranded targets in hybridization reactions and amplification reactions with real-time detection. Double-stranded probes of equal length are useful in PCR amplification reactions with real-time detection.

Citations

20 Claims

1. A homogeneous amplification and detection method for detecting, in a sample containing a first nucleic acid target sequence, a second target sequence differing from the first target sequence by at least one single nucleotide, comprising the steps of:
- (a) preparing an amplification mixture that includes the sample, primers and other amplification reagents for amplifying said first and second target sequences, and a first quenched, double-stranded hybridization probe having a temperature window in which it is able to discriminate between said second target sequence and a sequence differing therefrom by as little as a single nucleotide, said first probe comprising(i) a first oligonucleotide that is labeled with a first fluorophores, that has a 3′
  
  end blocked from being extendable by a polymerase, and that consists essentially of a first oligonucleotide sequence that is perfectly complementary to the second target sequence,(ii) a quencher-labeled second oligonucleotide that has a 3′
  
  end blocked from being extendable by a polymerase and that consists essentially of a second oligonucleotide sequence that is perfectly complementary to said first oligonucleotide sequence but is shorter than said first oligonucleotide sequence by up to seven nucleotides, said labels arranged such that when said first probe is double-stranded, fluorescence from the first fluorophores is quenched;
  
  (b) subjecting the amplification reaction mixture to an amplification reaction to create copies of the first target nucleic acid sequence and copies of the second target sequence, if the second target sequence is present in the sample;
  
  (c) hybridizing the first oligonucleotide to copies of the second target nucleic acid sequence at a temperature within the temperature window at which the first probe hybridizes to the second target sequence but not to a sequence differing therefrom by as little as a single nucleotide, including said first target sequence; and
  
  (d) detecting a fluorescent signal emitted by said first fluorophores upon stimulation, when the first oligonucleotide is so hybridized, said signal indicative of the presence in the sample of the second target sequence but not indicative of the presence in the sample of a sequence differing therefrom by as little as a single nucleotide, including the first target sequence.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
- - 2. The method according to claim 1, wherein said first and second oligonucleotides hybridize to produce a double-stranded blunt end, and wherein said fluorophore label and said quencher are attached to said blunt end.
  - 3. The method according to claim 1 wherein at least one of said first and second oligonucleotides comprises at least one non-natural nucleotide or at least one non-natural nucleotide linkage.
  - 4. The method according to claim 1 wherein the amplification reaction is a polymerase chain reaction (PCR) having cycles that include an extension temperature at which the first oligonucleotide dissociates from the second target sequence, the second oligonucleotide sequence is shorter than the first oligonucleotide sequence by 1-5 nucleotides, and detection, whether end-point or real-time, is at a temperature below the extension temperature.
  - 5. The method according to claim 4 wherein the PCR amplification has cycles that include an annealing step at a temperature below the extension temperature, and detection is real-time detection during the annealing step.
  - 6. The method according to claim 4 for detecting a third nucleic acid target sequence that differs from each of said first and second target sequences by at least one nucleotide and that is amplifiable by said primers,wherein the amplification reaction mixture includes a second quenched, double-stranded hybridization probe that discriminates between said third target sequence and each of said first and second target sequences in said temperature window, comprising(iii) a third oligonucleotide that is labeled with a second fluorophore detectably distinguishable from the first fluorophore, that has a 3′
    - end blocked from being extendable by a polymerase and that consists essentially of a third oligonucleotide sequence that is perfectly complementary to the third target sequence, and(iv) a quencher-labeled fourth oligonucleotide having a 3′
      
      end blocked from being extendable by a polymerase and consisting essentially of a fourth oligonucleotide sequence that is perfectly complementary to said third oligonucleotide sequence but is shorter than said third oligonucleotide sequence by 1-5 nucleotides, said labels arranged such that when said second probe is double-stranded, fluorescence from the second fluorophore is quenched;
      
      wherein the amplification reaction creates copies of the third target sequence, if the third second target sequence is present in the sample;
      
      wherein hybridizing includes hybridizing the third oligonucleotide to copies of the third target sequence at a temperature at which the second probe is double-stranded in the absence of the third target sequence; and
      
      wherein detection includes detecting a fluorescent signal emitted by said second fluorophore when the third oligonucleotide is so hybridized, said signal indicative of the presence in the sample of the third target sequence but not indicative of the presence in the sample of a sequence differing therefrom by at least a single nucleotide, including the first target sequence and the second target sequence.
  - 7. The method according to claim 6, wherein the oligonucleotides of each probe hybridize to produce a double-stranded blunt end, and wherein the fluorophore and quencher labels are attached to said blunt ends.
  - 8. The method according to claim 6 wherein the first, second and third target nucleic acid sequences are alleles amplifiable by a single primer pair.
  - 9. The method according to claim 6 wherein the PCR amplification has cycles that include an annealing step at a temperature below the extension temperature, and detection is real-time detection during the annealing step.
  - 10. The method according to claim 4 wherein the first and second target nucleic acid sequences are alleles amplifiable by a single primer pair.
  - 11. The method according to claim 10 wherein the first and second target sequences differ by a single nucleotide.
  - 12. The method according to claim 1 wherein the second oligonucleotide sequence is shorter than the first sequence by 2-7 nucleotides.
  - 13. The method according to claim 1 wherein the detection is end-point detection.
  - 14. The method according to claim 1 wherein the first and second target nucleic acid sequences are alleles amplifiable by a single primer pair.
  - 15. The method according to claim 14 wherein the first and second target sequences differ by a single nucleotide.
  - 16. The method of claim 1 wherein the amplification reaction mixture includes a second quenched, double-stranded hybridization probe that discriminates between said first target sequence and said second target sequence in said temperature window, said second probe comprising(iii) a third oligonucleotide that is labeled with a second fluorophores detectably distinguishable from the first fluorophores, that has a 3′
    - end blocked from being extendable by a polymerase and that consists essentially of a third oligonucleotide sequence that is perfectly complementary to the first target sequence, and(iv) a quencher-labeled fourth oligonucleotide having a 3′
      
      end blocked from being extendable by a polymerase and consisting essentially of a fourth oligonucleotide sequence that is perfectly complementary to said third oligonucleotide sequence but is shorter than said third oligonucleotide sequence by 1-5 nucleotides, said labels arranged such that when said second probe is double-stranded, fluorescence from the second fluorophores is quenched;
      
      wherein hybridizing includes hybridizing the third oligonucleotide to copies of the first target sequence at a temperature at which the second probe is double-stranded in the absence of the first target sequence; and
      
      wherein detection includes detecting a fluorescent signal emitted by said second fluorophore when the third oligonucleotide is so hybridized, said signal indicative of the presence in the sample of the first target sequence but not indicative of the presence in the sample of a sequence differing therefrom by as little as a single nucleotide, including the second target sequence.

17. A homogeneous detection method for detecting in a sample containing a first nucleic acid target sequence, at least one additional nucleic acid target sequence differing from said first target sequence by at least one single nucleotide, said additional target sequences differing from one another by at least one single nucleotide, comprising(a) contacting the sample with, for each target sequence to be detected, a quenched double-stranded hybridization probe under conditions in which the probe is double-stranded in the absence of its target sequence, said probe comprising(i) a first oligonucleotide that is labeled with a detectably distinguishable fluorophore, that has a 3′
- end blocked from being extendable by a polymerase, and that consists essentially of a first oligonucleotide sequence that is perfectly complementary to its target sequence,(ii) a second oligonucleotide that is labeled with a label from the group consisting of a fluorescence quencher and a fluorescence acceptor, that has a 3′
  
  end blocked from being extendable by a polymerase, and that consists essentially of a second oligonucleotide sequence that is perfectly complementary to said first oligonucleotide sequence but is shorter than said first oligonucleotide sequence by up to ten nucleotides, said labels of each double-stranded probe being arranged such that when the probe is double-stranded, fluorescence from the fluorophore attached to the first oligonucleotide is quenched, said contacting step being carried out at a temperature within a temperature window at which the first oligonucleotide hybridizes to its target sequence but not to a sequence that differs from said target sequence by as little as a single nucleotide, and(b) stimulating the fluorophore of each first oligonucleotide under said conditions, and detecting fluorescence from each fluorophore,wherein if said sample contains a sequence that is mismatched to a probe'"'"'s first oligonucleotide sequence by as little as a single nucleotide, that probe'"'"'s first oligonucleotide does not hybridize thereto and signal.
- View Dependent Claims (18, 19)
- - 18. The method of claim 17 wherein the second oligonucleotide of each double-stranded probe is labeled with a quencher.
  - 19. The method of claim 17 wherein said conditions include the annealing temperature of a polymerase chain reaction (PCR) amplification reaction to which the sample has been subjected.

20. A homogeneous amplification and detection method for detecting, in a sample containing a first nucleic acid target sequence, a second target sequence differing from the first target sequence by at least one single nucleotide, comprising the steps of:
- (a) preparing an amplification reaction mixture that includes the sample, a pair of primers and other amplification reagents for amplifying said first and second target sequences, and a first quenched, double-stranded hybridization probe comprising(i) a first oligonucleotide that is labeled with a first fluorophore, that has a 3′
  
  end blocked from being extendable by a polymerase, and that consists essentially of a first oligonucleotide sequence that is perfectly complementary to the second target sequence,(ii) a quencher-labeled second oligonucleotide that has a 3′
  
  end blocked from being extendable by a polymerase and that consists essentially of a second oligonucleotide sequence that is perfectly complementary to said first oligonucleotide sequence but is shorter than said first oligonucleotide sequence by up to seven nucleotides, said labels arranged such that when said first probe is double-stranded, fluorescence from the first fluorophore is quenched;
  
  (b) subjecting the amplification reaction mixture to an amplification reaction to create copies of the first target nucleic acid sequence and copies of the second target sequence, if the second target sequence is present in the sample;
  
  (c) hybridizing the first oligonucleotide to copies of the second target nucleic acid sequence at a temperature at which the free energy released by hybridization of the two oligonucleotides to one another is less than the free energy released by hybridization of the first oligonucleotide to the second target sequence but greater than the free energy released by hybridization of the first oligonucleotide to a sequence differing from the second target sequence by as little as a single nucleotide; and
  
  (d) detecting a fluorescent signal emitted by said first fluorophore upon stimulation, said signal indicative of the presence in the sample of the second target sequence but not indicative of the presence in the sample of the first target sequence.

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Current Assignee
QuanDx, Inc.
Original Assignee
QuanDx, Inc.
Inventors
Li, Qingge, Liang, Jixuan, Luan, Guoyan
Primary Examiner(s)
WOOLWINE, SAMUEL C

Application Number

US12/854,619
Publication Number

US 20110129828A1
Time in Patent Office

1,889 Days
Field of Search

None
US Class Current

1/1
CPC Class Codes

C07H 21/00   Compounds containing two or...

C07H 21/04   with deoxyribosyl as saccha...

C12Q 1/6813   Hybridisation assays

C12Q 1/6818   involving interaction of tw...

C12Q 1/6844   Nucleic acid amplification ...

C12Q 2525/204   specific length of the olig...

C12Q 2537/161   A competitive reaction step

C12Q 2561/113   Real time assay

C12Q 2563/107   fluorescence

C12Q 2565/525   characterised by the captur...

Specific double-stranded probes for homogeneous detection of nucleic acid and their application methods

First Claim

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Specific double-stranded probes for homogeneous detection of nucleic acid and their application methods

First Claim

4 Assignments

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Abstract

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20 Claims

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