L-Homoserine Lactone Hydrochloride: A Key Chiral Intermediate for Advanced Chemical Synthesis
Unlock potent synthetic pathways with our high-purity L-Homoserine Lactone Hydrochloride.
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L-Homoserine Lactone Hydrochloride
L-Homoserine Lactone Hydrochloride is a vital chiral intermediate, extensively utilized in the synthesis of complex molecules. Its distinct lactone ring structure is instrumental in enabling selective ring-opening reactions, a critical feature for intricate drug modifications and the development of beta-lactam antibiotics and cyclic peptides. Beyond pharmaceuticals, it serves as a fundamental building block in organic synthesis and is instrumental in studies related to plant hormones and enzyme inhibition, offering broad utility for researchers and manufacturers.
- As a key chiral intermediate, L-Homoserine Lactone Hydrochloride is crucial for precise beta-lactam antibiotics synthesis.
- Its unique structure allows for selective ring-opening reactions, enhancing its utility in cyclic peptide synthesis.
- L-Homoserine Lactone Hydrochloride plays a role in developing analogs of bacterial quorum sensing signaling molecules.
- This compound is a valuable organic synthesis building block, facilitating the creation of complex chemical structures.
Advantages You Gain
High Purity and Quality
With a purity of ≥98% (HPLC), our L-Homoserine Lactone Hydrochloride ensures reliable and consistent results in your critical synthetic processes, supporting the development of high-quality pharmaceuticals.
Versatile Synthetic Utility
Leverage the versatility of this compound as a chiral intermediate and building block for diverse organic synthesis applications, from pharmaceutical intermediates to advanced chemical research.
Facilitates Complex Synthesis
The inherent reactivity of L-Homoserine Lactone Hydrochloride, particularly its lactone ring, aids in complex molecular assembly, making it invaluable for your drug discovery and development pipeline.
Key Applications
Pharmaceutical Intermediates
Essential for the synthesis of beta-lactam antibiotics and cyclic peptides, contributing significantly to advanced drug development.
Organic Synthesis
Serves as a fundamental building block in complex organic synthesis pathways, enabling the creation of novel chemical entities.
Quorum Sensing Research
Used in the preparation of analogs of bacterial quorum-sensing signaling molecules, aiding in the study of bacterial communication and control.
Plant Hormone and Enzyme Inhibitor Studies
Valuable in research focusing on plant growth regulators and the mechanisms of enzyme inhibition.