Description
Specifications Table
Product Name – Proteinase K ex. Pichia Pastoris (Type D – Recombinant) Quantity/Pack Size – 25 Mg, 100 Mg, 500 Mg, 1 Gms, 5 Gms Form – Powder Grade – Molecular Biology Grade Application – Molecular Biology, PCR
Product Overview
Proteinase K ex. Pichia Pastoris (Type D – Recombinant) is a high-quality enzyme designed for molecular biology applications. This recombinant form, expressed in Pichia Pastoris, ensures consistent performance and reliability. Proteinase K is widely used for its robust proteolytic activity, making it an essential tool for DNA and RNA extraction, as well as for the digestion of proteins in various molecular biology protocols. Its high purity and specific activity make it a preferred choice for researchers and educators. The enzyme is formulated to maintain its activity over a wide range of conditions, ensuring optimal performance in diverse experimental setups. Proteinase K ex. Pichia Pastoris (Type D – Recombinant) is an invaluable reagent for laboratories engaged in molecular biology research, providing dependable results and enhancing the efficiency of experimental workflows.
FAQs
1. What are the primary applications of Proteinase K ex. Pichia Pastoris (Type D – Recombinant)?
Proteinase K is primarily used for DNA and RNA extraction, protein digestion, and various molecular biology protocols.
2. Is this Proteinase K suitable for PCR applications?
Yes, Proteinase K ex. Pichia Pastoris (Type D – Recombinant) is suitable for PCR applications due to its high purity and specific activity.
3. What is the grade of this Proteinase K?
This Proteinase K is of Molecular Biology Grade, ensuring high purity and reliability for research purposes.
4. How should Proteinase K be stored?
Proteinase K should be stored at -20°C to maintain its activity and stability over extended periods.
5. Can Proteinase K be used for protein digestion in various experimental setups?
Yes, Proteinase K is widely used for protein digestion in various molecular biology protocols due to its robust proteolytic activity.
