L(-)-Pipecolinic Acid CAS:3105-95-1: A Key Chiral Intermediate for Pharmaceutical Synthesis
Discover the advanced biotechnological approach for producing L(-)-pipecolinic acid, a critical chiral building block for modern pharmaceuticals. Learn how metabolic engineering in E. coli is revolutionizing its synthesis.
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L(-)-Pipecolinic acid
As a trusted supplier in China, we present L(-)-pipecolinic acid, a vital chiral intermediate extensively used in the synthesis of various pharmaceuticals. Our expertise in metabolic engineering allows for efficient and scalable production, ensuring high quality and purity for your critical applications.
- Explore efficient L(-)-Pipecolinic acid biosynthesis pathways, a key aspect of advanced pharmaceutical intermediate production.
- We leverage cutting-edge E. coli metabolic engineering to achieve high yields for chiral pharmaceutical intermediates.
- Our cofactor engineering strategies are designed to optimize the performance of enzymes like lysine cyclodeaminase.
- Understand the principles behind the fermentative production of L-pipecolic acid and its advantages.
Advantages Offered by L(-)-Pipecolinic Acid
High Purity for Pharmaceutical Applications
L(-)-Pipecolinic acid is produced with high optical purity, essential for pharmaceutical intermediates, ensuring the efficacy and safety of the final drug product.
Scalable Biosynthesis Process
Our advanced metabolic engineering techniques enable scalable production, making us a reliable manufacturer in China for your bulk needs.
Cost-Effective Production Method
The fermentative approach offers a more cost-effective and environmentally friendly alternative to traditional chemical synthesis methods for chiral compounds.
Key Applications
Pharmaceutical Intermediate Synthesis
L(-)-Pipecolinic acid serves as a crucial building block in the synthesis of numerous drugs, particularly anaesthetics and immunosuppressants, highlighting its importance in pharmaceutical manufacturing.
Central Nervous System Research
Its role in synaptic transmission makes L(-)-pipecolinic acid a subject of interest in neuroscience and drug development targeting the central nervous system.
Chiral Drug Development
As a chiral intermediate, it is fundamental for the development of enantiomerically pure drugs, a growing area in the pharmaceutical industry.
Biotechnology Research
The study of its biosynthesis in E. coli provides insights into metabolic engineering and enzyme functionality, crucial for advancing biotechnology.