Unlock Advanced Biocatalysis with High-Purity Formate Dehydrogenase
Harness the power of enzymes for efficient cofactor regeneration and sustainable CO2 conversion.
Get a Quote & SampleProduct Core Value
Recombinant Formate Dehydrogenase (EC 1.2.1.2)
Discover the exceptional capabilities of our high-purity recombinant Formate Dehydrogenase (FDH), a critical enzyme for modern biocatalysis. This enzyme plays a pivotal role in the NAD+ to NADH regeneration cycle, essential for numerous enzymatic reactions. Its application extends to pioneering CO2 conversion processes and facilitating complex chiral synthesis, making it an invaluable tool for sustainable chemistry and industrial biotechnology.
- Efficient Cofactor Regeneration: Our FDH enzyme facilitates the crucial NAD+ to NADH regeneration process, a cornerstone for many biocatalytic applications and crucial for maintaining metabolic balance in biological systems.
- CO2 Conversion Applications: Explore the potential of this enzyme in converting carbon dioxide into valuable products, contributing to greener chemical processes and carbon capture technologies.
- Chiral Synthesis Support: Leverage the specificity of Formate Dehydrogenase for precise chiral synthesis, enabling the production of high-value enantiomerically pure compounds for pharmaceuticals and fine chemicals.
- High Specificity for Formate: Benefit from the enzyme's focused activity on formate, ensuring predictable and reliable performance in your biotransformation processes.
Key Advantages
Exceptional Purity
Our Formate Dehydrogenase boasts high purity, ensuring reliable and reproducible results in your sensitive biocatalysis applications, leading to cleaner end products.
Enzyme Stability
Maintain catalytic efficiency with enzyme stability up to 40°C, providing a robust option for various reaction conditions and processes.
Versatile Use Cases
From cosmetic raw materials to advanced chemical synthesis, this enzyme's broad applicability makes it a versatile asset for diverse industrial needs.
Key Applications
Biocatalysis
Essential for cofactor regeneration (NAD+ to NADH) in enzymatic reactions, driving efficiency in chemical synthesis.
Carbon Dioxide Conversion
Utilized in processes for converting CO2 into valuable chemical intermediates, supporting sustainable chemical manufacturing.
Chiral Synthesis
Aids in the production of enantiomerically pure compounds, critical for the pharmaceutical and specialty chemical industries.
Biosensors
Applicable in the development of biosensors for the detection of formate or CO2-related analytes.