Discover (S)-2-Piperidinone-6-Carboxylic Acid: Your Key Chemical Intermediate
Unlock advanced organic synthesis with a high-purity, versatile chemical building block.
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(S)-2-Piperidinone-6-Carboxylic Acid
This compound is a crucial heterocyclic block and a general reagent, instrumental in various advanced synthesis pathways. Its high purity ensures reliable results in demanding chemical research and development.
- Leverage its role as a critical intermediate in the synthesis of metabolites of lysine developed during aging and in diabetic patients, enhancing research precision.
- Utilize it as a reactant to synthesize functionalized β-lactam N-heterocycles via carboxymethylproline synthase catalyzed cyclization reactions, a key step in developing novel compounds.
- Explore its application in creating Pro-(S)-C5 branched [4.3.1] aza-amide bicycles as potential inhibitors for FK506-binding proteins, advancing drug discovery efforts.
- Incorporate it into synthesis routes that yield optically pure hydroxymethyl lactams, vital for specialized pharmaceutical applications.
Advantages Delivered
Exceptional Purity
With an assay of ≥ 99.0%, this chemical intermediate guarantees the highest standards for your synthesis, contributing to predictable and reproducible outcomes in complex organic synthesis.
Versatile Application Potential
Its utility as a heterocyclic block and general reagent makes it invaluable for a broad spectrum of chemical research, including drug discovery and material science, supporting diverse research needs.
Chiral Building Block
The (S)-configuration makes it a critical chiral building block, essential for stereoselective synthesis and the development of enantiomerically pure compounds crucial in pharmaceutical and biochemical studies.
Key Applications
Pharmaceutical Synthesis
Serve as a fundamental building block for creating complex pharmaceutical compounds and drug candidates, aiding in precise molecular construction.
Organic Synthesis Research
Enable the synthesis of novel heterocyclic structures and complex organic molecules, supporting cutting-edge advancements in chemical research.
Medicinal Chemistry
Act as a key intermediate in the development of potential therapeutic agents, contributing to the exploration of new drug targets and mechanisms.
Biochemical Studies
Facilitate the study of metabolic pathways and enzyme interactions, particularly in aging and diabetic research, by providing essential molecular scaffolds.