Polymerase Chain Reaction (PCR) |
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High-Fidelity PCR Enzymes
Successful polymerase chain reaction (PCR) is crucial for amplifying DNA sequences in order to study their function, either by sequencing, mutation, transcription, or expression of gene products. PCR involves replication of the DNA template by a thermostable DNA polymerase. The processivity, specificity, and fidelity of the polymerase enzyme used can largely determine the efficiency, reproducibility, and yield of the PCR reaction.Merck’s molecular biologists work to develop the newest, best performing polymerases for customer use, optimizing conditions, buffer compositions, and cycling parameters to save you valuable time and resources.
Recent CRISPR Publications Using KOD Hot Start
Precise and efficient genome editing in zebrafish using the CRISPR/Cas9 system. Development. 2014 Dec;141(24):4827-30.
CRISPR/Cas-mediated genome editing in the rat via direct injection of one-cell embryos. Nature Protocols. 2014 Oct;9(10):2493-512.
“We started to use KOD Xtreme Hot Start DNA polymerase for long range PCR when screening ES cells. We found that it is more robust at amplifying targets > 3kb in length and produces cleaner, more interpretable bands than other polymerases.”
University of Connecticut, Gene Targeting and Transgenic Facility
University of Connecticut, Gene Targeting and Transgenic Facility
Choose the Appropriate Thermostable Polymerase for PCR Applications:
Enzyme |
KOD DNA Polymerase |
KOD Hot Start DNA Polymerase |
KOD XL DNA Polymerase |
KOD Xtreme™ Hot Start DNA Polymerase |
|---|---|---|---|---|
| PCR Product Size (kb) | <6 | <21 | <30 | <40 |
| Applications | Cloning, cDNA amplification | Cloning, cDNA amplification | Crude samples, multiplex, incorporation of derivatized dNTPs | Crude samples, long targets, difficult and GC-rich targets |
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KOD DNA Polymerase Is a Highly Efficient Proof Reading Enzyme.
Enzyme |
KOD DNA Polymerase |
Pfu DNA Polymerase |
Taq DNA Polymerase |
|---|---|---|---|
| Species | Thermococcus kodakaraensis | Pyrococcus furiosus | Thermus aquaticus YT-1 |
| Fidelity† (mutation frequency) | 0.0035 | 0.0039 | 0.013 |
| Elongation rate (bases/second) | 106-138 | 25 | 61 |
| Processivity (nucleotide bases) | >300 | <20 | not determined |
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KOD Hot Start DNA Polymerase
This enzyme provides the highest accuracy, yield and processivity of our proofreading DNA polymerases. High processivity provides more product, enabling quick, reliable gene amplification. KOD Hot Start polymerase amplifies genomic DNA up to 12 kbp and plasmid DNA up to 21 kbp, including GC-rich regions. The polymerase is also available as mastermix for high throughput and standardization.
| Cycle Profile A |
Cycle Profile B |
Cycle Profile C |
Cycle Profile D | |
|---|---|---|---|---|
| Initial denaturation | 98°C 30 s | 94°C 2 min | 95°C 2 min | 95°C 2 min |
| 29 cycles | 8°C 10 s 55°C 20 s 72°C 30 s | 94°C 15 s 52°C 20 s 68°C 60 s | 95°C 20 s 55°C 20 s 72°C 30 s | 95°C 20 s 55°C 10 s 70°C 15 s |
| Final extension | 72°C 5 min | 68°C 5 min | 72°C 3 min | N/A |
KOD Xtreme™ Hot Start DNA Polymerase
Use this optimized PCR system to reliably amplify long or challenging DNA templates (up to 90% GC content). Ideal for amplifying crude samples with minimal sample preparation, this kit translates into less reagents and less time spent on PCR.
Yields were determined by PicoGreen analysis after 19, 21, 23, 25, 27, and 29 cycles for all 4 cycling profiles. The best yield data for each enzyme, from any cycling profile, were graphed. The cycling profile that gave the best yield is identified in parentheses. The shaded area highlights yields in cycles 19-25, which are most preferred for cloning. KOD-HS DNA polymerase out-performed the competition.
