Digital PCR Calibration for High Throughput Sequencing

US 20100069250A1
Filed: 08/14/2009
Published: 03/18/2010
Est. Priority Date: 08/16/2008
Status: Abandoned Application

First Claim

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1. A method for determining concentration of DNA molecules in a DNA sequencing library, comprising:

(a) providing a library comprising a plurality of individual DNA molecules, said molecules individually having attached thereto a 5′

adapter and a 3′

adapter, said 5′

adapter and 3′

adapter spanning a sequence of interest;

(b) distributing said individual DNA molecules from the library to a number of individual reaction areas, wherein the percentage of reaction areas containing one or more of the DNA molecules is greater than 0 percent and less than 100 percent;

(c) amplifying DNA molecules, if present in a reaction area, using a forward primer binding to the 5′

adapter and a reverse primer binding to the 3′

adapter; and

(d) generating a signal in each reaction area containing amplified molecules, wherebythe number of reaction areas generating a signal is indicative of the quantity of DNA molecules in the sample.

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Abstract

Disclosed is a method for accurately determining the number of template molecules in a library of nucleic acids (e.g., DNA) to be sequenced. The method does not require large amounts of the DNA sample, nor does it require the preparation of a standard curve. The method is especially applicable to methodologies for “sequencing by synthesis,” where quantitation of the starting library is important. The method uses quantitative real time PCR, especially digital PCR, which measures the number of individual molecules in a sample. The present method particularly may use a microfluidic device for running large numbers of PCR reactions. Each PCR reaction is monitored in real time by a primer/probe combination. The forward primer is adapted to contain a sequence not on the adapter but which corresponds to a probe sequence. A short probe which generates fluorescence during the PCR process is used.

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22 Claims

1. A method for determining concentration of DNA molecules in a DNA sequencing library, comprising:
- (a) providing a library comprising a plurality of individual DNA molecules, said molecules individually having attached thereto a 5′
  
  adapter and a 3′
  
  adapter, said 5′
  
  adapter and 3′
  
  adapter spanning a sequence of interest;
  
  (b) distributing said individual DNA molecules from the library to a number of individual reaction areas, wherein the percentage of reaction areas containing one or more of the DNA molecules is greater than 0 percent and less than 100 percent;
  
  (c) amplifying DNA molecules, if present in a reaction area, using a forward primer binding to the 5′
  
  adapter and a reverse primer binding to the 3′
  
  adapter; and
  
  (d) generating a signal in each reaction area containing amplified molecules, wherebythe number of reaction areas generating a signal is indicative of the quantity of DNA molecules in the sample.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The method of claim 1 where the step of generating a signal comprises generating a fluorescent signal.
  - 3. The method of claim 1 wherein said step of distributing is done in a microfluidic device adapted for carrying out PCR reactions in individual reaction areas.
  - 4. The method of claim 1 wherein said step of distributing is done by either a microfluidic device, a gel, an emulsion, a bead, or a multiwell plate.
  - 5. The method of claim 1 where the forward primer contains a complementary sequence for binding of a probe used for said generating of a signal.
  - 6. The method of claim 4 further comprising the step of adding forward primer both with and without the complementary sequence during the amplification reaction.
  - 7. The method of claim 1 where the amplification is done in at least 100 reaction areas.
  - 8. The method of claim 1 wherein generating a signal is done with a molecule that contains a fluorescent molecule and a quencher which are separated during said amplifying to generate fluorescence.
  - 9. The method of claim 8 where the probe binds to a primer and contains from 7 to 12 bases which are complementary to the primer binding site and a fluorescent dye and quencher at opposite ends.
  - 10. The method of claim 9 where the probe contains at least one normatural base to increase binding affinity.

11. A method for sequencing DNA where the sequencing process begins with a library of DNA molecules, comprising:
- (a) obtaining a sample of individual DNA molecules from the library to be sequenced;
  
  (b) attaching a 5′
  
  adapter on a 5′
  
  end of each molecule and a 3′
  
  adapter on a 3′
  
  end of each molecule, each 5′
  
  adapter and 3′
  
  adapter having the same sequence;
  
  (c) distributing said individual molecules to a number of individual reaction areas, each reaction area having on average no more than about one to two molecules per area;
  
  (d) amplifying a single molecule, if present in a reaction area, using a forward primer binding to the 5′
  
  adapter and a reverse primer binding to the 3′
  
  adapter on the single molecule;
  
  (e) generating a signal by means of a probe which binds to a sequence defined on a forward primer or a reverse primer, wherebythe number of reaction areas generating a signal is indicative of the quantity of DNA molecules in the sample; and
  
  (f) sequencing the sample using an amount of DNA determined by the quantity of DNA as determined in step (e).

12. A method of quantifying nucleic acid molecules in a sample, each of said nucleic acid molecules having a 5′
- region and a 3′
  
  region, each 5′
  
  region of identical, known sequence, and each 3′
  
  region being of identical, known sequence, comprising;
  
  (a) distributing said individual nucleic acid molecules to a number of individual reaction areas, each reaction area having a calculated average number of nucleic acid molecules per area;
  
  (b) amplifying a single nucleic acid molecule, if present in a reaction area, using a forward primer binding to the 5′
  
  region and a reverse primer binding to the 3′
  
  region on the single molecule; and
  
  (e) generating a signal which is dependent upon amplification, whereby the number of individual reaction areas generating a signal is indicative of the quantity of the nucleic acid molecules in the sample.
- View Dependent Claims (13, 14, 15, 16)
- - 13. The method of claim 12 where the distributing is done in a microfluidic device.
  - 14. The method of claim 12 where the identical known sequences are adapter molecules comprising identical, known sequences attached to the nucleic acid molecules in the sample and used for sequencing.
  - 15. The method of claim 12 where the generating a signal comes from a probe which hybridizes to a primer used in said amplifying.
  - 16. The method of claim 15 where the step of amplifying comprises amplifying with a primer containing a probe binding region and a competing primer not containing a probe binding region.

17. A method for using a universal template for a probe, said probe being fluorescent, said method comprising a real time PCR reaction, said method being characterized by the use as said probe of a probe having a length of between 8 and 12 bases, at least one of said bases being a normatural base for higher binding to the template.

18. A hydrolysis probe having a sequence complementary to a portion of a PCR primer, said portion of the PCR primer being non-complementary to a template binding sequence in the primer but complementary to the probe.

19. A kit comprising a hydrolysis probe having a sequence complementary to a portion of a PCR primer, said portion of the PCR primer being non-complementary to a template binding sequence in the primer but complementary to the probe, and a primer binding to the probe.
- View Dependent Claims (20, 21)
- - 20. The kit of claim 19 where the primer binds to an adapter molecule attached to a DNA molecule to be sequenced.
  - 21. The kit of claim 20 further comprising a pair of primers, each primer binding, respectively to a 5′
    - adapter and a 3′
      
      adapter.

22. A kit for quantifying a population of nucleic acid strands, comprising:
- (a) 5′
  
  adapters and 3′
  
  adapters for the nucleic acid strands, each 5′
  
  adapter and 3′
  
  adapter having the same sequence;
  
  (b) forward and reverse primers complementary to the 5′ and
  
  3′
  
  adapters, respectively, said forward primer having a non-complementary region for providing a sequence for binding of a labeled probe; and
  
  (c) said labeled probe having a fluorescer-quencher pair which provides an optical signal during amplification, said labeled probe further characterized as having between 7 and 15 bases, and having a non-natural base for increasing binding.

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Current Assignee
Board of Trustees of the Leland Stanford Junior University (Stanford Management Co.)
Original Assignee
Board of Trustees of the Leland Stanford Junior University (Stanford Management Co.)
Inventors
Blainey, Paul, White, Richard Allen III, Fan, Hei-Mun Christina, Quake, Stephen R.

Application Number

US12/541,722
Publication Number

US 20100069250A1
Time in Patent Office

Days
Field of Search
US Class Current

506/4
CPC Class Codes

C12Q 1/6851   Quantitative amplification

C12Q 1/6869   Methods for sequencing

C12Q 2537/157   A reaction step characteris...

C12Q 2565/629   being a microfluidic device

Digital PCR Calibration for High Throughput Sequencing

First Claim

2 Assignments

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Abstract

272 Citations

22 Claims

Specification

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Digital PCR Calibration for High Throughput Sequencing

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

272 Citations

22 Claims

Specification

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Use Cases

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Others