Epigenetics
SensiFAST Probe Direct SuperMix 2000 rxns
A highly inhibitor-resistant qPCR master mix that provides quick and easy extraction and amplification of DNA from a variety of tissue types. The supermix maximizes sensitivity while simultaneously minimizing the effect of blood, tissue and plant PCR inhibitors, to deliver greater experiment success rates.
SensiFAST Probe Direct SuperMix 2000 rxns
A highly inhibitor-resistant qPCR master mix that provides quick and easy extraction and amplification of DNA from a variety of tissue types. The supermix maximizes sensitivity while simultaneously minimizing the effect of blood, tissue and plant PCR inhibitors, to deliver greater experiment success rates.
SensiFAST Probe Direct SuperMix 500 rxns
A highly inhibitor-resistant qPCR master mix that provides quick and easy extraction and amplification of DNA from a variety of tissue types. The supermix maximizes sensitivity while simultaneously minimizing the effect of blood, tissue and plant PCR inhibitors, to deliver greater experiment success rates.
SensiFAST Probe Direct SuperMix 500 rxns
A highly inhibitor-resistant qPCR master mix that provides quick and easy extraction and amplification of DNA from a variety of tissue types. The supermix maximizes sensitivity while simultaneously minimizing the effect of blood, tissue and plant PCR inhibitors, to deliver greater experiment success rates.
SensiFAST Probe Lo-ROX Kit 5000 rxns
Outstanding assay reproducibility, sensitivity and robustness from both DNA and RNA templates, under fast thermal cycling conditions.
SensiFAST Probe Lo-ROX Kit 5000 rxns
Outstanding assay reproducibility, sensitivity and robustness from both DNA and RNA templates, under fast thermal cycling conditions.
SensiFAST Probe No-ROX Kit 5000 rxns
Outstanding assay reproducibility, sensitivity and robustness from both DNA and RNA templates, under fast thermal cycling conditions.
SensiFAST Probe No-ROX Kit 5000 rxns
Outstanding assay reproducibility, sensitivity and robustness from both DNA and RNA templates, under fast thermal cycling conditions.