AzuraView™ GreenFast qPCR Blue Mix LR
AzuraView™ GreenFast qPCR Blue Mix LR AzuraView™ GreenFast qPCR Blue Mix LR AzuraView™ GreenFast qPCR Blue Mix LR AzuraView™ GreenFast qPCR Blue Mix LR
AzuraView™ GreenFast qPCR Blue Mix HR

AzuraView™ GreenFast qPCR Blue Mix HR

AzuraView™ GreenFast qPCR Blue Mix LR

The Ultra-Sensitive, Best-in-Class Real Time PCR SYBR® Green Master Mix

AzuraView™ Green Fast qPCR Blue Mix is an ultra-sensitive 2x master mix comprised of a non-inhibitory intercalating dye, Azura HS Taq DNA Polymerase, and a highly optimized reaction buffer with a blue tracer dye for use in SYBR® real-time quantitative assays.

In order to confirm instrument compatibility and the most suitable reagent, please click here for qPCR Reagent Compatibility Tool.

Grouped product items
Product NameCatalog No. Qty
AzuraView GreenFast qPCR Blue Mix LR 100 Reactions / 1 x 1 mL
$65.00
AZ-2301
AzuraView GreenFast qPCR Blue Mix LR 500 Reactions / 5 x 1 mL
$265.00
AZ-2305
AzuraView GreenFast qPCR Blue Mix LR 2000 Reactions / 20 x 1 mL
$965.00
AZ-2320
AzuraView GreenFast qPCR Blue Mix LR 5000 Reactions / 10 x 5 mL
$1,795.00
AZ-2350

AzuraView™ Green Fast qPCR Blue Mix reliably quantifies any DNA template including cDNA, genomic DNA, and low copy number viral DNA sequences. The ready-to-use 2x master mix delivers an increased limit of detection with best-in-class sensitivity, and the inert blue dye provides an easy to see, easy to pipette format.



Applications

  • Fluorescent SYBR® Green detection of cDNA, genomic DNA and viral DNA
  • Gene expression analysis
  • Detection of sequence variants
  • Pathogen detection
  • SNP Genotyping and siRNA validation



Flexibility
Compatible with all standard and fast cycling instruments and a wide range of cycling conditions.



Easy to See and Easy to Pipette
Contains inert blue tracer dye to simplify the set-up of PCR plates and strip tubes.



Excellent Stability
Increased resistance to ambient temperatures and up to 40 freeze-thaw cycles.



Sensitivity and Speed
A non-inhibitory intercalating dye and optimized buffer chemistry provide an increased limit of detection.