Phusion® High-Fidelity DNA Polymerases

DNA polymerases with high fidelity are important for applications in which the DNA sequence needs to be correct after amplification. Manufactured and quality-controlled at New England Biolabs, Thermo Scientific® Phusion® High-Fidelity DNA Polymerase offers both high fidelity and robust performance, and thus can be used for all PCR applications. Its unique structure, a novel Pyrococcus-like enzyme fused with a processivity-enhancing domain, increases fidelity and speed. Reagent selection includes a standalone enzyme, master mix and kit format, as well as a choice of reaction buffers for amplification of difficult templates. Phusion Hot Start Flex DNA Polymerase is available as standalone enzyme or in a master mix format and enables high specificity amplification of a broad range of templates. Phusion DNA Polymerase is an ideal choice for cloning and can be used for long or difficult amplicons.

Thermo Scientific® is a registered trademark of Thermo Fisher Scientific.
Phusion® was developed by Finnzymes Oy, now a part of Thermo Fisher Scientific. This product is manufactured by New England Biolabs, Inc. under agreement with, and under the performance specifications of Thermo Fisher Scientific.

PCR Selection Chart

Choose from one of the largest selections of polymerases for PCR applications from the leader in enzyme technology and bring unparalleled confidence to your experiments.

DNA Polymerase Selection Chart

NEB offers a guidelines for choosing the correct DNA polymerase for your application by providing a list of specific properites.
Several factors govern which polymerase should be used in a given application, including: 

Template/product specificity: Is RNA or DNA involved? Is the 3´ terminus at a gap, nick or at the end of the template? 

Removal of existing nucleotides: Will the nucleotide(s) be removed from the existing polynucleotide chain as part of the protocol? If so, will they be removed from the 5´ or the 3´ end? 

Thermal stability: Does the polymerase need to survive incubation at high temperature or is heat inactivation desirable? 

Fidelity: Will subsequent sequence analysis or expression depend on the fidelity of the synthesized products?