High-Purity MOPS Sodium Salt: A Versatile Zwitterionic Buffer
Ensuring precise pH control for critical biological and chemical research applications.
Get a Quote & SampleProduct Core Value
MOPS Sodium Salt
MOPS sodium salt is a highly effective zwitterionic buffering agent, indispensable for maintaining stable pH environments in a wide array of scientific endeavors. Its chemical structure and properties make it a preferred choice for sensitive biological systems.
- This high-purity MOPS sodium salt ensures reliable pH stability, crucial for accurate biological research applications.
- Utilize MOPS sodium salt for cell culture, providing a consistent environment for cell growth and viability.
- Prepare effective electrophoresis buffers with MOPS sodium salt for precise separation of biomolecules.
- Leverage MOPS sodium salt in protein purification processes to maintain protein integrity and activity.
Key Product Advantages
Exceptional pH Control
Benefit from the robust buffering capacity of MOPS sodium salt, maintaining a stable pH within the 6.5-7.9 range for critical experimental workflows.
Broad Application Spectrum
From cell culture to gel electrophoresis, discover the versatility of MOPS sodium salt for diverse laboratory needs, supporting numerous experimental protocols.
High Purity and Consistency
Trust in the guaranteed high assay of MOPS sodium salt, ensuring reproducible and dependable results in your sensitive biochemical reactions.
Key Applications
Cell Culture
MOPS sodium salt is vital for maintaining the pH of mammalian cell culture media, ensuring optimal cell viability and growth during experimental procedures.
Electrophoresis
Prepare reliable MOPS-based electrophoresis buffers with MOPS sodium salt, ideal for the separation of nucleic acids and proteins in gels.
Protein Purification
Use MOPS sodium salt in chromatography for protein purification, safeguarding the native structure of proteins against denaturation during processing.
Biochemical Reactions
Ensure stable pH for various in vitro biochemical reactions by incorporating MOPS sodium salt at appropriate concentrations, promoting accurate experimental outcomes.