Chemo-enzymatic synthesis of specifically stable-isotope labelledL-glutamic acid and 2-oxoglutaric acid

## Abstract (3,4‐^13^C~2~)‐L‐proline and (^15^N)‐L‐proline were prepared from the correspondingly labeled L‐glumatic acids via a single scheme in high yield and on a gram scale. The synthetic route is based on the ring closure of L‐glutamic acid to L‐5‐oxoproline and the selective reduction of the

Alkylation of dimethyl 2,2-dimethoxyglutarate followed by transamination provides an efficient synthesis of (4S)-and (4R)-4-methyl-L-glutamic acids which are very useful for enzymatic resolution afforded (4S)-and (4R)-4-methyl-2oxoglutaric acid in an enantiomerically pure form. The characterisation

## Abstract We have developed methods for the preparation of L‐glutamic acid, isotopically labeled with ^13^C, using commercially available purified enzymes. The procedure is sufficiently versatile that L‐glutamic acid may be labeled at any carbons or any combination of carbons using ^13^C‐labeled

Two versatile, high yielding, and efficient chemo-enzymatic methods for the synthesis of b-protected Asp and c-protected Glu derivatives using Alcalase are described. The first method is based on the a-selective enzymatic hydrolysis of symmetrical aspartyl and glutamyl diesters. The second method in

## Abstract In this paper we report the preparation of specifically ^2^H‐labelled L‐glutamic acids and ^2^H‐, ^15^N‐, ^13^C‐labelled L‐glutamines on the gram scale. The products obtained have high isotope enrichment (>98%) and high optical purity. The synthetic schemes allow the specific isotope en