End-Point PCR
Invented in 1983 by Kary Mullis, end-point polymerase chain reaction (PCR) enables researchers to expand a single piece of DNA into millions of identical fragments. This well-established technique makes it possible to detect sequences that might otherwise be undetectable. In recent years, the molecular biologist has asked progressively more challenging questions and PCR applications and complexity have evolved. Azura Genomics has developed end-point PCR systems which deliver best-in-class sensitivity, speed and yield. Azura scientists have identified improvements in enzyme solubility and novel buffer additives which enhance reaction efficiency and processivity.
Clearly, our reagents are different and allow the research community to pursue better performance in PCR applications such as crude sample PCR, multiplex PCR, colony PCR, genotyping, GC-rich PCR, long PCR, high-fidelity PCR and cloning.
-
Azura 2x HS Taq Mix
Azura HS Taq DNA Polymerase is an engineered, antibody-mediated Hot-Start PCR enzyme with additional hydrophilic residues for improved solubility and increased affinity for template DNA, resulting in significantly improved activity, yield, speed and sensitivity when compared with wild-type Taq Polymerase.
Learn MoreStarting at: $145.00
-
Azura 2x HS Taq Red Mix
Azura HS Taq DNA Polymerase is an engineered, antibody-mediated Hot-Start PCR enzyme with additional hydrophilic residues for improved solubility and increased affinity for template DNA, resulting in significantly improved activity, yield, speed and sensitivity when compared with wild-type Taq Polymerase.
Learn MoreStarting at: $145.00
-
Azura 2x Taq Mix
Azura Taq DNA Polymerase is engineered with additional hydrophilic residues for improved solubility and increased affinity for template DNA, resulting in significantly improved activity, yield, speed and sensitivity when compared with wild-type Taq Polymerase.
In addition, the ready-to-use mix is available with an inert red dye which allows samples to be loaded directly onto agarose gels without additional gel loading buffers. Azura 2x Taq Red Mix is sufficiently dense to sink to the bottom of the wells.
Learn MoreStarting at: $85.00
-
Azura 2x Taq Red Mix
Azura Taq DNA Polymerase is engineered with additional hydrophilic residues for improved solubility and increased affinity for template DNA, resulting in significantly improved activity, yield, speed and sensitivity when compared with wild-type Taq Polymerase.
In addition, the ready-to-use mix is available with an inert red dye which allows samples to be loaded directly onto agarose gels without additional gel loading buffers. Azura 2x Taq Red Mix is sufficiently dense to sink to the bottom of the wells.
Learn MoreStarting at: $85.00
-
Azura HS Taq DNA Polymerase
Azura HS Taq DNA Polymerase is an engineered, antibody-mediated Hot-Start PCR enzyme with additional hydrophilic residues for improved solubility and increased affinity for template DNA, resulting in significantly improved activity, yield, speed and sensitivity when compared with wild-type Taq Polymerase.
Learn MoreStarting at: $195.00
-
Azura Taq DNA Polymerase
Azura Taq DNA Polymerase is engineered with additional hydrophilic residues for improved solubility and increased affinity for template DNA, resulting in significantly improved activity, yield, speed and sensitivity when compared with wild-type Taq Polymerase.
In addition, the ready-to-use mix is available with an inert red dye which allows samples to be loaded directly onto agarose gels without additional gel loading buffers. Azura 2x Taq Red Mix is sufficiently dense to sink to the bottom of the wells.
Learn MoreStarting at: $75.00
-
ExtremeTaq HiFi Mix
ExtremeTaq HiFi Mix is a robust, high-fidelity DNA polymerase complex ideally suited to a wide range of DNA templates including the most challenging DNA targets and inhibitor-rich samples.
Learn MoreStarting at: $99.00
-
ExtremeTaq HiFi Red Mix
ExtremeTaq HiFi Mix is a robust, high-fidelity DNA polymerase complex ideally suited to a wide range of DNA templates including the most challenging DNA targets and inhibitor-rich samples.
Learn MoreStarting at: $99.00