HotBegan™ Hot Start Taq-DNA Polymerase, MasterMix

Cat# P0030

Size : 2x1.25mL(250rxn)

Brand : Canvax Biotech

Contact local distributor :


Phone : +1 850 650 7790

HotBegan™ Hot Start Taq-DNA Polymerase, MasterMix

For a Specific, Highly Efficient & Reliable Amplifications of DNA up 160 fg in Ready-to-use Format

HotBegan™ Hot Start Taq DNA Polymerase MasterMix an optimized ready-to-use solution containing HotBegan Taq DNAPolymerase (hot start performance), dNTPs, MgCl2 and Stabilizers. It is inactive at Room Temperature and includes all material needed except Template and Primers.

It is a Horse-Power™ Taq DNA Polymerase bound to a proprietary antibody that blocks polymerase activity until a denaturation step occurs. The heat-labile antibodies are rapidly inactivated by raising the temperature (4 minutes at 95-97 °C). This prevents or minimizes primer-dimer and non-specific products.

Like Horse-Power™ Taq DNA Polymerase, the enzyme has 5’→3’ polymerase activity and a weak 5’→3’ exonuclease activity but no 3’→5’ exonuclease activity (proofreading). Before enzyme activation none of the enzyme activities are detectable.

2 x 1.25 mL (250 rxn)
SKU: P0030 Categories: End Point PCR, MasterMixes

Detailed information:

  • Time-saving solution: ready-to-use MasterMix.
  • High specificity: minimizes unspecific amplification.
  • Efficient: prevents or minimizes primer-dimer and nonspecific products.
  • Great sensitivity: amplifies from femptograms of DNA targets.
  • Inactive: at Room Temperature.
  • Optimized: adds extra nucleotides (preferentially adenine) without template at 3´ends leaving 3´overhangs PCR fragments.
  • Powerful: amplification of targets up to 5 kb.
  • Convenient: available in kits and MasterMix solution.

Unit definition:
One unit is defined as the amount of enzyme required to catalyse the incorporation of 10 nanomoles of dNTPs into acid-insoluble material in 30 minutes at 74°C.

– 2 x 1.25 mL HotBegan™ Hot Start Taq DNA Polymerase MasterMix, which includes HotBegan™ Hot Start Taq DNA Polymerase (0.1 U/μL), 2x PCR Buffer, 0.4 mM of each dNTP, 4 mM Mg2+, 4% Glycerol.
– 2 x 1.25 mL Nuclease-free water.

Datasheet
MSDS
  • Real time PCR.
  • RT-PCR and quantitative RT-PCR.
  • Genotyping with Taqman Probes.
  • PCR fragments amplification for TA or GC Cloning.
  • Amplification from a limited DNA template or low copy number genes.

  • Functionally tested in qPCR.
  • None detected bacterial DNA (by qPCR).
  • Exempt of nucleases (endo-, exo and ribonucleases) activity guaranteed by appropriate quality tests.
  • Shipped in: Gel pack.
  • Storage: -20 °C.
  • Albuquerque, C. A. D. (2019). Detection and characterization of Dichelobacter nodosus from sheep with different clinical manifestations of Ovine Footrot (Doctoral dissertation).
  • Osset Iborra, H. (2019). Seguimiento de las plagas de Tomicus destruens y Orthotomicus erosus y detección de Botryosphaeriaceae, hongos patógenos asociados a estos insectos, en los pinares de Pinus halepensis de La Pedrera y la Devesa del Saler (Valencia) (Doctoral dissertation).
  • Negreiros, A. M., Júnior, R. S., Rodrigues, A. P., León, M., & Armengol, J. Prevalent weeds collected from cucurbit fields in Northeastern Brazil reveal new species diversity in the genus Monosporascus. Annals of Applied Biology.
  • Martín-Pinto, P. Fungal communities from forest systems in Ethiopia.
  • Dejene, T., Oria-de-Rueda, J. A., & Martín-Pinto, P. (2017). Fungal diversity and succession under Eucalyptus grandis plantations in Ethiopia. Forest Ecology and Management405, 179-187.
  • Dejene, T., Oria-de-Rueda, J. A., & Martín-Pinto, P. (2017). Fungal diversity and succession following stand development in Pinus patula Schiede ex Schltdl. & Cham. plantations in Ethiopia. Forest Ecology and Management395, 9-18.
  • Huyghe, J. (2017). Selection of reference genes for gene expression studies in Lactic acid bacteria.
  • Dejene, T., Oria-de-Rueda, J. A., & Martín-Pinto, P. (2017). Fungal community succession and sporocarp production following fire occurrence in Dry Afromontane forests of Ethiopia. Forest Ecology and Management398, 37-47.
  • Criado-García, J., Fuentes, F., Cruz-Teno, C., García-Rios, A., Jiménez-Morales, A., Delgado-Lista, J., … & Pérez-Jiménez, F. (2011). R353Q polymorphism in the factor VII gene and cardiovascular risk in Heterozygous Familial Hypercholesterolemia: a case-control study. Lipids in health and disease10(1), 50.
  • Català, S., Pérez-Sierra, A., & Abad-Campos, P. (2015). The use of genus-specific amplicon pyrosequencing to assess Phytophthora species diversity using eDNA from soil and water in northern Spain. PloS one10(3), e0119311.
  • Olmo, D., Armengol, J., León, M., & Gramaje, D. (2016). Characterization and Pathogenicity of Botryosphaeriaceae Species Isolated from Almond Trees on the Island of Mallorca (Spain). Plant Disease100(12), 2483-2491.
  • Dejene, T., Oria-de-Rueda, J. A., & Martín-Pinto, P. (2017). Fungal diversity and succession following stand development in Pinus patula Schiede ex Schltdl. & Cham. plantations in Ethiopia. Forest Ecology and Management395, 9-18.

This product is developed, designed and sold exclusively for Research purposes and in vitro use only (RUO). The product was not tested for use in diagnostics or for drug development, nor is it suitable for administration to humans or animals. For more info, please check its Material Safety Data Sheet available in this website.

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