N-BOC-DL-Serine Methyl Ester: A Key Intermediate in Drug Synthesis
Unlock novel therapeutic pathways with this essential building block for advanced pharmaceutical research.
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N-BOC-DL-Serine Methyl Ester
N-BOC-DL-Serine Methyl Ester is a vital serine derivative extensively utilized in the synthesis of dehydroamino acids. These dehydroamino acids serve as critical precursors for a range of pharmacologically active compounds, including potent inhibitors and therapeutic agents.
- Facilitating the Synthesis of Inhibitors: This compound plays a crucial role in the preparation of inhibitors, contributing to the development of targeted therapies.
- Enabling Drug Development: Its application extends to the synthesis of compounds like the thiopeptide antibiotic Amythiamicin D, vital for combating serious infections such as MRSA and malaria.
- Building Block for Anti-Cancer Agents: N-BOC-DL-Serine Methyl Ester is employed in the synthesis of anti-cancer agents, including quinazolinone derivatives that inhibit PI3K activity and tricyclic pyrolopyranopyridines that target protein kinase activity.
- Advancing Organic Synthesis: As a protected amino acid derivative, it offers strategic advantages in complex organic synthesis, enabling precise molecular construction.
Advantages of Using N-BOC-DL-Serine Methyl Ester
Versatile Synthetic Utility
Leverage the power of N-BOC-DL-Serine Methyl Ester for the preparation of dehydroamino acids, expanding your synthetic capabilities in drug research and development.
High Purity and Quality
Ensuring reliable outcomes in sensitive synthesis, the compound is typically supplied with high purity, supporting consistent research results.
Key Intermediate for Bioactive Molecules
Its role as a precursor for compounds with anti-cancer and anti-malarial properties underscores its significance in creating pharmacologically active compounds.
Key Applications
Pharmaceutical Synthesis
Essential for creating dehydroamino acid derivatives used in the synthesis of inhibitors and other pharmacologically active compounds.
Medicinal Chemistry
A crucial building block for developing novel anti-cancer agents and antibiotics, contributing to advancements in treating severe diseases.
Peptide Synthesis
Provides a protected serine moiety for incorporation into peptide chains, enabling complex peptide-based therapeutics.
Biochemical Research
Facilitates research into new therapeutic targets by providing a well-defined intermediate for synthesizing bioactive molecules.