Dino

Complete Portfolio of Real-Time and End-Point PCR Enzymes and Kits

PCR & qPCR

Applications for PCR continue to grow in number. To address new challenges in DNA amplification, researchers are increasingly turning to novel polymerases with specific high performance features. With this in mind, MP Bio developed innovative thermostable polymerases that offer high sensitivity, processivity and fidelity. The PCR product range covers requirements for general end-point PCR, hot-start, high fidelity, multiplex PCR as well as premium mastermixes developed for performing quantitative real-time PCR (qPCR) and two-step reverse transcription qPCR.

BUFFER W/ MGCL2

Recombinant form - for general PCR applications - Highly reproducible results - Ideal for T/A cloning - Ultra pure enzyme - Highly processive

ISIS CORE KIT 10 MM

For high fidelity PCR - Extremely low error rates - Optimal blunt end cloning - The most thermostable polymerase available

QBIOTAQ CORE KIT 10

For multiplex PCR and RAPDs - Recombinant, truncated form of Thermus aquaticus - Highly thermostable (98°C) - No 5’-3’ exonuclease activity - Enzyme cannot degrade the 5’ end of primers

SUREPRIME CORE KIT 10

For hot start PCR - Chemically modifi ed Taq DNA polymerase - Low background - Highly specific amplification - Room temperature reaction set-up

TAQ CORE KIT 10 (NH4SO4)

Recombinant form - for general PCR applications - Highly reproducible results - Ideal for T/A cloning - Ultra pure enzyme - Highly processive

TAQ CORE KIT 25 DIRECT LOADING

Recombinant form - for general PCR applications - Highly reproducible results - Ideal for T/A cloning - Ultra pure enzyme - Highly processive

SurePRIME CORE KIT 25

For hot start PCR - Chemically modifi ed Taq DNA polymerase - Low background - Highly specific amplification - Room temperature reaction set-up

SUREPRIME DNA POLYMERASE

For hot start PCR - Chemically modifi ed Taq DNA polymerase - Low background - Highly specific amplification - Room temperature reaction set-up

Q-BIO TAQ POL (5U/uL)

For multiplex PCR and RAPDs - Recombinant, truncated form of Thermus aquaticus - Highly thermostable (98°C) - No 5’-3’ exonuclease activity - Enzyme cannot degrade the 5’ end of primers

ISIS DNA POL (1U/uL)

For high fidelity PCR - Extremely low error rates - Optimal blunt end cloning - The most thermostable polymerase available

TAQ & GO READY TO USE PCR MIX

PCR Mastermixes - Optimized for highly effi cient PCR - Significant savings in preparation time - Reduced pipetting - Reduced risk of errors and contamination - Stable at 4°C

}{ TAQ-& LOAD PCR MASTERMIX

PCR Mastermixes - Optimized for highly effi cient PCR - Significant savings in preparation time - Reduced pipetting - Reduced risk of errors and contamination - Stable at 4°C

TAQ DNA POL(5U/uL)

Recombinant form - for general PCR applications - Highly reproducible results - Ideal for T/A cloning - Ultra pure enzyme - Highly processive

TAQ DNA POL (15U/uL)

Recombinant form - for general PCR applications - Highly reproducible results - Ideal for T/A cloning - Ultra pure enzyme - Highly processive

TAQ DNA POL(5U/uL)

Recombinant form - for general PCR applications - Highly reproducible results - Ideal for T/A cloning - Ultra pure enzyme - Highly processive

TAQ CORE KIT 10 (250 U)

Recombinant form - for general PCR applications - Highly reproducible results - Ideal for T/A cloning - Ultra pure enzyme - Highly processive

TAQ CORE KIT 25 (250 U)

Recombinant form - for general PCR applications - Highly reproducible results - Ideal for T/A cloning - Ultra pure enzyme - Highly processive

TAQ CORE KIT 10

Recombinant form - for general PCR applications - Highly reproducible results - Ideal for T/A cloning - Ultra pure enzyme - Highly processive

TAQ DNA POLYMERASE(5U/µl)

Recombinant form - for general PCR applications - Highly reproducible results - Ideal for T/A cloning - Ultra pure enzyme - Highly processive

Taq DNA Pol w/o Detergent

Recombinant form - for general PCR applications - Highly reproducible results - Ideal for T/A cloning - Ultra pure enzyme - Highly processive