HyperFusion™ high-fidelity PCR Kit
HyperFusion™ high-fidelity DNA polymerases are composed of a DNA-binding domain fused to a Pyrococcus-like proofreading polymerase. Because of this, HyperFusion™ DNA polymerases produce PCR products with very high speed and accuracy. Also, HyperFusion™ DNA polymerases are tolerant of various inhibitors, allowing for robust amplification with minimal optimization. HyperFusion™ DNA Polymerase is an ideal choice for cloning and can be used for long or difficult (GC-rich) amplicons. HyperFusion™ high-fidelity DNA polymerases have become the choice for even demanding applications like massively parallel high-throughput sequencing of whole genomes.
High-Fidelity DNA Polymerases are important for applications in which the DNA sequence needs to be correct after amplification. Its unique structure, a novel Pyrococcus-like enzyme fused with a processivity-enhancing domain, increases fidelity and speed. HyperFusion™ DNA Polymerase is an ideal choice for cloning and can be used for long or difficult amplicons. It is one of the most accurate thermostable polymerases available, with an error rate >50-fold lower than that of Taq DNA Polymerase and 6-fold lower than that of Pyrococcus furiosus DNA Polymerase. It possesses 5´→ 3´ polymerase activity, 3´→ 5´ exonuclease activity and will generate blunt-ended products.
This kit contains HyperFusion™ DNA polymerase, comes with standard 5X HyperFusion™ HF buffer and dNTP Mixture, etc., and can be used for complex or GC-rich template PCR reactions. Reactions can also be optimized using the provided DMSO.
Related Biological Data

Related Biological Data

Solutions | Concentration | Storage |
HyperFusion™ High-Fidelity DNA Polymerase | 1,000 units/mL | -20°C |
5X HyperFusion™ Buffer | 5 X | -20°C |
dNTP Mixture | 2.5 mM | -20°C |
MgCl2 solution | 50 mM | -20°C or room temperature |
DMSO | 100% | -20°C or room temperature |
Product Source | An E. coli strain that carries the HyperFusion™ DNA Polymerase gene. |
1. High fidelity—up to 50X more accurate than Taq; up to 6X more accurate than Pfu DNA polymerase.
2. Enhanced robustness—fewer reaction failures and minimal optimization.
3. Improved yields—high product yields with minimal enzyme amounts (0.5–1 U/50 μL reaction).
4. High speed—increased processivity allows shorter reaction times (10X faster than Pfu).
5. Versatile – Can be used for routine PCR as well as long or difficult (GC-rich) templates.