A new generation of hot-start polymerase that delivers improved specificity, yield, speed and robustness when amplifying targets from any template.
Product Highlights
Sensitive – exhibits increased affinity for DNA, thereby improving amplification of even limiting amounts of template
Efficient – novel buffer system maximizes efficiency of PCR amplification, delivering improved yield of any PCR product
Specific – an antibody-mediated hot-start enzyme that remains completely inactive during PCR set-up to prevent non-specific amplification
Flexible – ideal for amplifying any target up to 5 kb, including DNA extracted from human, animal and plant samples
Fast – developed to give sensitive, reproducible and robust amplification of a broader range of targets under fast thermal cycling conditions
Convenient – includes all the components necessary for high performance PCR amplification
Product Description
MyTaq™ HS DNA Polymerase is a new generation of antibody-mediated hot-start enzyme, engineered for highly specific and efficient amplification from even the most challenging templates. MyTaq HS remains inactive at room temperature allowing for convenient reaction set-up, thereby reducing non-specific amplification that can hinder PCR assays from the start. These properties make MyTaq HS DNA Polymerase the ideal choice for PCR assays containing complex and low copy number targets.
The inclusion of dNTPs, MgCl2 and enhancers at optimal concentrations in the buffer helps eliminate the need for optimization, thereby saving time, effort and the cost of performing unnecessary assay repeats. The optimized buffer system and MyTaq HS with its increased affinity for DNA, enables very high yield PCR amplification over a wide range of PCR templates, resulting in reliable amplification from even very low amounts of template.
The advanced formulation of MyTaq HS DNA Polymerase and buffer system has been developed to give more robust amplification than other commonly-used polymerases, meaning it performs reliably even in the presence of PCR inhibitors. Furthermore, it allows fast cycling conditions, considerably reducing the reaction time without compromising PCR specificity or yield.
Applications
Fast PCR
Multiplex PCR
Genotyping
Complex templates (e.g. GC-rich)
Low copy number PCR assays
High-throughput assays with prolonged PCR set-up
A 340 bp (A) and a 450 bp (B) fragment of the myc gene, a 525 bp (C) fragment of the EGFR gene and a 530 bp (D) fragment of the AGRI1 gene were amplified using MyTaq HS and hot-start DNA polymerases from Suppliers F, K, G and S. Each polymerase was used to set-up PCR reactions containing either 100 ng, 33 ng, 10 ng, 4 ng, 1 ng, 33 pg, 10 pg and 3 pg of human genomic DNA (Lanes 1-8 respectively), prepared by a 3-fold serial dilution. Marker is HyperLadder 1kb (M). MyTaq HS performed well across all four human genes.
M13 vector carrying a DNA insert was cloned into E.coli cells. 2 µL increments of agar (2a) and 2 µL increments of LB (2b) were added to a series of 50 µL PCR reactions (Lanes 1-8 respectively). The results show that MyTaq HS DNA Polymerase was more resistant to inhibition than that of supplier S. Individual colonies were picked from a plate of E.coli, washed directly into MyTaq buffer and amplified using MyTaq HS and primers for either a 2.6 kb or an 884 bp amplicon. Marker is HyperLadder 1kb (M). The results illustrate MyTaq DNA Polymerase is robust and gives highly specific results.
Introduction to MyTaq
Overview, features and benefits of the MyTaq product family
All components are shipped on dry/blue ice and should be stored at -20°C upon receipt for optimum stability. Repeated freeze/thaw cycles should be avoided. When stored under the recommended conditions and handled correctly, full activity of the reagents is retained until the expiry date on the outer box label.
Components may also be stored at +4°C if required, although storage at -20°C is recommended. When stored at +4°C, reagents will remain stable for a period of 2 weeks from date of receipt.
"MyTaq HS DNA Polymerase is more robust than Clontech ... "
Sydney University, Save Sight Institute, Sydney, Australia
"The DNA isolation we use is not the cleanest and with certain PCR it can be ... "
University of California, San Francisco (UCSF), US
"The MyTaq HS sample was so much better than anything else we have used, we ... "
Roslin Institute, Scotland
The MyTaq HS sample was so much better than anything else we have used, we have ordered more already.
Roslin Institute, Scotland
The DNA isolation we use is not the cleanest and with certain PCR it can be problematic if the Taq is not top quality. We had barely any signal with the other Taq. When we switch to MyTaq, the bands were there and clean! Nice product!
University of California, San Francisco (UCSF), US
The MyTaq HS DNA polymerase works very well with difficult samples like GC rich or bisulfite converted DNA. Especially the hot-start is important, as it decreases primer dimer and unspecific amplification. We would suggest to start with the recommended protocol. If optimization is needed, we would suggest to optimize the annealing temperature. Due to the degraded DNA after bisulfite conversion it may be useful to increase the amount of template and polymerase.
If possible, we would recommend an additional cleanup of affected samples, for instance, customers had very good experiences with the clean-up of samples containing humic acids with SureClean Plus. Alternatively decreasing the template concentration will help to minimize the amount of inhibitors, the amount of polymerase and primer can be increased, but do not exceed the suggested limits.
At Meridian we pride ourselves in supplying high-quality polymerases to suit your requirements. To aid your selection of the most suited enzyme for your specific applications, please see our enzyme selection tool.
All our polymerases are guaranteed for a period of 12 months from the date of purchase. These should be stored at -20°C during this time for optimal retention of activity.
Please Note: We do not recommend the storage of our polymerases at -80 °C as ice crystals could form on the active site, which may affect or destroy the activity of the enzyme.
PCR can be a challenging technique, with various parameters to optimize to achieve the best results. If you are having problems, these could be easily resolved by addressing a few issues. Please see our PCR troubleshooting guide for suggestions and help with your specific problems.
Observation
Recommended Solution(s)
No or low PCR yield
Enzyme concentration too low – increase the amount of enzyme in 0.5 U increments.
Primers degraded – check quality and age of the primers.
Magnesium concentration too low – increase concentration in 0.25 mM increments with a starting concentration of 1.75 mM.
Primer concentration not optimized. Titrate primer concentration (0.3-1 µM); ensuring that both primers have the same concentration.
Template concentration too low – Increase concentration of template.
Perform a positive control to ensure that the enzyme, dNTPs and buffers are not degraded and/or contaminated.
Multiple Bands
Primer annealing temperature too low. Increase annealing temperature. Primer annealing should be at least 5°C below the calculated Tm of primers.
Prepare master mixes on ice or use a heat-activated polymerase.
For problems with low specificity. Try adding 3% DMSO (not supplied) to improve specificity.
Smearing or artifacts
Template concentration too high. Prepare serial dilutions of template.
Too many cycles. Reduce the cycle number by 3-5 to remove non-specific bands.
Enzyme concentration too high - decrease the amount of enzyme in 0.5 U increments.
Extension time too long. Reduce extension time in 0.5-1 minute increments.
These terms refer to parameters to be considered when performing PCR and are important features in selecting the correct enzyme for your needs. Understanding what they mean is therefore crucial:
Yield: The amount of DNA produced in a PCR reaction.
Fidelity: The accuracy of the enzyme at incorporating the correct dNTP to the elongating DNA strand.
Processivity: The length of time a polymerase is associated with the template and therefore the size of fragment which can be amplified.
Specificity: A measure of the unwanted by-products generated in a reaction.
During PCR setup at room temperature, standard polymerases will have some activity. When using a hot-start polymerase, this enzyme will have no activity at room temperature, thus reducing the risk of unspecific products in the reaction due to these mis-primed oligonucleotides. This feature makes this type of polymerase ideally suited to high-throughput applications, where the reactions may be left sitting at room temperature for prolonged periods of time.
All Meridian polymerases are available in the convenient format of a 2x master mix, containing all the reagents and additives necessary to perform successful PCR, with the exception of template, primers and water.
This formulation not only provides a convenient and hassle-free PCR setup, but also significantly reduces the chances of human error, inaccuracies and contamination by reducing the pipetting steps required.
The MyTaq HS DNA polymerase works very well with difficult samples like GC rich or bisulfite converted DNA. Especially the hot-start is important, as it decreases primer dimer and unspecific amplification. We would suggest to start with the recommended protocol. If optimization is needed, we would suggest to optimize the annealing temperature. Due to the degraded DNA after bisulfite conversion it may be useful to increase the amount of template and polymerase.