88702
88700
88701
PIER88702EA
656
EUR
InStock
PIER88702
PIER88700
PIER88701
Universal nuclease for cell lysis, Pierce™
Protéines extraction
Réactifs pour l'extraction des protéines
The Pierce™ Universal Nuclease for Cell Lysis is ideal for a wide variety of applications where complete digestion of nucleic acids is needed when preparing cell lysates.
- Degrades all forms of DNA and RNA
- Nuclease is ≥99% pure, as tested by SDS-PAGE
- Robust activity, with 100-fold greater specific activity than DNase I
- Can be used with a wide variety of cell lysis reagents
Pierce Universal Nuclease for Cell Lysis is a genetically engineered endonuclease from Serratia marcescens.
Commonly used to reduce the viscosity of bacterial and mammalian protein extracts for downstream application by removing the nucleic acids from protein preparations. The enzyme completely digests nucleic acids to oligonucleotides that are less than 5 bases long. This Nuclease helps to improve the separation of the lysate pellet from the supernatant, enhances filtration of the treated lysate, improves chromatography processing time and increases the overall protein yield. The endonuclease has also been shown to improve the compatibility of protein extracts for 2D gel electrophoresis. One unit corresponds to the amount of enzyme required to produce a change of 1,0 in the absorbance at 260 nm of sonicated Herring DNA over 30 minutes at 37 °C, as determined using standard nuclease from the Serratia marcescens volumetric activity assay.
The enzyme is produced and purified from E. coli and consists of two identical 30 kDa subunits with two critical disulfide bonds. This indiscriminate endonuclease degrades single-stranded, double-stranded, linear and circular DNA and RNA and is effective over a wide range of temperatures and pH. This enzyme has high specific activity (100-fold greater than DNase I) and increased thermal stability compared to other nucleases. Pierce Universal Nuclease is ≥99 pure enzyme, is free of any measurable protease activity and is supplied at 250 U/μl.
Attention: For research use only. Not for use in diagnostic procedures.