AI Article Synopsis
- Chiral phenylalanine derivatives are crucial for making peptides and drugs, with D/L-3-pyridyl- and phenylalanine showing broad application in drug synthesis.
- The article details two synthetic methods: the Erlenmeyer-Plöchl route starting with N-acetylglycine and an alkylation route using diethyl acetamidomalonate.
- A key process involves using Protamex proteinase to effectively separate N-acetamido-alanine esters, achieving over 99% purity for the enantiomeric products.
Article Abstract
Chiral phenylalanine derivatives are important raw materials and building blocks for the synthesis of peptides and drug molecules. Enantiomerically pure D/L-3-pyridyl- and phenylalanine has shown wide application potential in the synthesis of various drug intermediates. This article focuses on two synthetic routes from different feedstocks. The first approach is an Erlenmeyer-Plöchl route study using N-acetylglycine as starting material, whereas the second is an alkylation route study using diethyl acetamidomalonate as starting material. The key step is the resolution of N-acetamido-alanine esters using different quantities of fairly inexpensive Protamex proteinase to obtain pure enantiomeric D/L-3-pyridyl- and substituted phenylalanine or its derivative, with the ee value and purity of all products exceeding 99%. The different chiral arylalanine derivatives that can be prepared using the above two methods have good versatility.
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| http://dx.doi.org/10.1002/chir.70000 | DOI Listing |
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