Synthesis of isotope-labelled [1-13C]-amino acids from 13CO2

## Abstract The one‐ and two‐bond ^13^C isotope shifts, typically −1.5 to −2.5 ppb and −0.7 ppb respectively, in non‐cyclic aliphatic systems and up to −4.4 ppb and −1.0 ppb in glucose cause effects that need to be taken into account in the adaptive NMR spectral library‐based quantification of the

## Abstract 17α‐Hydroxyprogesterone (__**2**__) was converted to an enol‐lactone __**8**__ in which the 20‐oxo group was selectively protected as an ethylene acetal. The enol‐lactone __**8**__ was subjected to Claisen condensation with phenl acetate‐1,2‐^13^C~2~ in the presence of sodium hydride, w

The incorporation of carbon-13 and deuterium i n the t,2,3-thiadiaxoZe framework i s described.

## Abstract Tryptophan synthase catalyzes the nucleophilic replacement of the hydroxyl group at C‐3 of L‐serine. This enzyme can use benzyl mercaptan as a nucleophile in the conversion of serine to S‐benzyl‐L‐cysteine which is deblocked by treatment with sodium in liquid ammonia to yield L‐cysteine

## Abstract We have developed a stereospecific chemomicrobiological synthesis of labeled tryptophan. L‐[3‐^13^C]Serine, [1‐^15^N]‐ and [2‐^13^C]indole were used as precursors for the synthesis of L‐[β‐^13^C]‐, L‐[1′‐^15^N]‐, and L‐[2′‐^13^C]tryptophan, respectively. The labeled precursors were inco