2×Pfu PCR Mix

Ultra-pure high fidelity Taq DNA polymerase.

Pfu DNA Polymerase is expressed from E.coli with cloned Pyrococus Furiosis DNA Polymerase gene and purified and separated by multiple column purification. Because Pfu has 3′-5′ exonuclease activity, it can proofread in DNA amplification process, while traditional Taq DNA Polymerase cannot. Although other Taq DNA polymerases such as Vent, Deep Vent, Tli, UITma, etc. have proofreading functions, Pfu has the lowest mismatch rate among all Taq DNA polymerases found so far. Pfu DNA Polymerase has better thermal stability than common Taq DNA polymerase, and it can maintain more than 90% activity at 95°C for 1 hour.

One-tube Pfu PCR Mix (National High-Tech Product Certification)

■ The Pfu PCR Mix has improved specificity and sensitivity of PCR reaction and can amplify complex templates with high GC content, secondary structure and the like. As low as 2 copies of the target template can be amplified, ensuring more accurate experimental results.

■ The unique Pfu MasterMix formula makes the whole reaction system very stable, and the activity will not be affected by repeated freeze-thaw or long-term storage at 4°C.

■ The stable and efficient pre-prepared PCR mix solution can make the operation fast and simple, greatly reducing labor intensity and sampling error. High-performance PCR enhancer and optimizer are also included in the mix, which reduces the requirements on PCR conditions.

■ This product has both dye-containing and dye-free systems. Dye-containing PCR Mix products can be directly electrophoresed after PCR, without adding sample buffer.

Cat. No	Packing Size
4992780	1ml
4992781	5*1ml
4992782	1ml
4992906	5*1ml

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Product Detail

Product Tags

Activity Definition

The activity of 1 unit (U) Pfu DNA Polymerase is defined as the amount of enzyme required to incorporate 10 nmol deoxynucleotides into acid-insoluble substances at 74°C within 30 min using activated salmon sperm DNA as a template/primer.

Quality Control

The purity by SDS-PAGE detection is more than 99%; No activity of exogenous nuclease is detected; Single-copy gene in human genome could be amplified effectively; No significant activity change when stored at room temperature for one week.

Main Technical Parameters

It has 3′-5′ exonuclease activity and no 5′-3′ exonuclease activity. The extension speed of DNA amplification is lower than that of Taq polymerase, and generally the extension speed of Pfu enzyme is 0.5-1 kb per minute. The thermal stability of Pfu is better than Taq. For templates with high GC content, the denaturation temperature can be increased to 98°C, which has no effect on the activity of Pfu polymerase. The PCR product is blunt-ended, which can be added with 3’-dA overhangs before ligated with TA vector or cloned with blunt-ended vector

Applications

It can be used for high fidelity amplification of DNA, such as gene expression cloning, site-directed mutation, single nucleotide polymorphism (SNP) analysis and end repairing.

All the products can be customized for ODM/OEM. For details, please click Customized Service(ODM/OEM)

Workflow

Use genomic DNA as template to amplify 1kb fragment.
After the PCR reaction, take 5 μl for electrophoresis detection.

FAQ

Q: No amplification bands

A-1 Template

■ The template contains protein impurities or Taq inhibitors, etc. ——Purify DNA template, remove protein impurities or extract template DNA with purification kits.

■ The denaturation of template is not complete ——Appropriately increase denaturation temperature and prolong denaturation time.

■ Template degradation ——Re-prepare the template.

A-2 Primer

■ Poor quality of primers ——Re-synthesize the primer.

■ Primer degradation ——Aliquot the high concentration primers into small volume for preservation. Avoid multiple freezing and thawing or long-term 4°C cryopreserved.

■ Inproper design of primers (e.g. primer length not sufficient, dimer formed between primers, etc.) -Redesign primers (avoid formation of primer dimer and secondary structure)

A-3 Mg²⁺concentration

■ Mg²⁺ concentration is too low ——Properly increase Mg²⁺concentration: Optimize the Mg²⁺ concentration by a series of reactions from 1 mM to 3 mM with an interval of 0.5 mM to determine the optimal Mg²⁺ concentration for each template and primer.

A-4 Annealing temperature

■ The high annealing temperature affects the binding of primer and template. ——Reduce the annealing temperature and optimize the condition with a gradient of 2°C.

A-5 Extension time

■ Short extension time——Increase extension time.

Q: False positive

Phenomena: Negative samples also show the target sequence bands.

A-1 Contamination of PCR

■ Cross contamination of target sequence or amplification products ——Carefully not to pipet the sample containing target sequence in the negative sample or spill them out of the centrifuge tube. The reagents or equipment should be autoclaved to eliminate existing nucleic acids, and the existence of contamination should be determined through negative control experiments.

■ Reagent contamination ——Aliquot the reagents and store at low temperature.

A-2 Primer

■ Mg²⁺ concentration is too low ——Properly increase Mg²⁺ concentration: Optimize the Mg²⁺ concentration by a series of reactions from 1 mM to 3 mM with an interval of 0.5 mM to determine the optimal Mg²⁺ concentration for each template and primer.

■ Improper primer design, and the target sequence has homology with the non-target sequence. ——Re-design primers.

Q: Non-specific amplification

Phenomena: The PCR amplification bands are inconsistent with the expected size, either large or small, or sometimes both specific amplification bands and non-specific amplification bands occur.

A-1 Primer

■ Poor primer specificity

——Re-design primer.

■ The primer concentration is too high ——Properly increase the denaturation temperature and prolong denaturation time.

A-2 Mg²⁺ concentration

■ The Mg²⁺ concentration is too high ——Properly reduce the Mg2+ concentration: Optimize the Mg²⁺ concentration by a series of reactions from 1 mM to 3 mM with an interval of 0.5 mM to determine the optimal Mg²⁺ concentration for each template and primer.

A-3 Thermostable polymerase

■ Excessive enzyme amount ——Reduce enzyme amount appropriately at intervals of 0.5 U.

A-4 Annealing temperature

■ The annealing temperature is too low ——Appropriately increase the annealing temperature or adopt the two-stage annealing method

A-5 PCR cycles

■ Too many PCR cycles ——Reduce the number of PCR cycles.

Q: Patchy or smear bands

A-1 Primer ——Poor specificity ——Re-design the primer, change the position and length of the primer to enhance its specificity; or perform nested PCR.

A-2 Template DNA

——The template is not pure ——Purify the template or extract DNA with purification kits.

A-3 Mg²⁺ concentration

——Mg²⁺ concentration is too high ——Properly reduce Mg²⁺ concentration: Optimize the Mg²⁺ concentration by a series of reactions from 1 mM to 3 mM with an interval of 0.5 mM to determine the optimal Mg²⁺ concentration for each template and primer.

A-4 dNTP

——The concentration of dNTPs are too high ——Reduce the concentration of dNTP appropriately

A-5 Annealing temperature

——Too low annealing temperature ——Appropriately increase the annealing temperature

A-6 Cycles

——Too many cycles ——Optimize the cycle number

Q: How much template DNA should be added in a 50 μl PCR reaction system?

Q: How to amplify long fragments?

The first step is to choose the appropriate polymerase. Regular Taq polymerase cannot proofread due to lack of 3’-5’ exonuclease activity, and mismatch will greatly reduce the extension efficiency of fragments. Therefore, regular Taq polymerase cannot effectively amplify target fragments larger than 5 kb. Taq polymerase with special modification or other high fidelity polymerase should be selected to improve extension efficiency and meet the needs of long fragment amplification. In addition, the amplification of long fragments also requires corresponding adjustment of primer design, denaturation time, extension time, buffer pH, etc. Usually, primers with 18-24 bp can lead to better yield. In order to prevent template damage, the denaturation time at 94°C should be reduced to 30 sec or less per cycle, and the time to rise temperature to 94°C before amplification should be less than 1 min. Moreover, setting the extension temperature at about 68°C and designing the extension time according to the rate of 1 kb/min can ensure effective amplification of long fragments.

Q: How to improve the amplification fidelity of PCR?

The error rate of PCR amplification can be reduced by using various DNA polymerases with high fidelity. Among all the Taq DNA polymerases found so far, Pfu enzyme has the lowest error rate and the highest fidelity (see attached table). In addition to enzyme selection, researchers can further reduce PCR mutation rate by optimizing reaction conditions, including optimizing buffer composition, concentration of thermostable polymerase and optimizing PCR cycle number.

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