The synthesis of nicotinic acid-7-13C

A simple, economic synthesis of C4,6-13C]nicotinic acid is described.

## Abstract A route to crystalline 13‐__cis__‐retinoic acid‐**6**,**7**‐^14^__C__ (**1**) has been developed. Addition of acetylene‐**1**,**2**‐^14^**C** to 6‐methyl‐5‐hepten‐2‐one (**4**) gave dehydrolinalool‐**1**,**2**‐^14^__C__ (**5**) which was catalytically transformed into citral‐**1**,**2**

## Abstract The chemical synthesis of 99% enriched D(‐)‐[1,7‐^13^C~2~]shikimic acid from [1,2‐^13^C~2~]acetate in 25% overall yield is described. A two‐carbon phosphonate synthon was prepared from [1,2‐^13^C~2~]acetate and used in the shikimate synthesis of Fleet and coworkers.

## Abstract Shikimic‐6‐^13^C acid, 43 ± 5% enriched, was synthesized from 91% enriched acetic‐2‐^13^C acid via 91% enriched phosphoenolpyruvic‐3‐^13^c acid. The latter intermediate was condensed with erythrose‐4‐phosphate by a cell free extract of __E__. __coli__ 83‐24.

## Abstract The synthesis of [1,3,5‐^13^C~3~]‐ and [2,4,6,7‐^13^C~4~]benzoic acid (5a and 5b) from [2‐^13^C]‐ and [3‐^13^C]sodium pyruvate (1a and 1b), for __in vitro__ and __in vivo__ tracer studies using ^13^C nuclear magnetic resonance (NMR) spectroscopy, is reported. After condensation of 1 to

## Abstract A convenient small scale chemical synthesis of double labeled folic acid with ^13^C at positions C‐7 and C‐9 is reported. [1,3‐^13^C~2~] acetone was converted into folic acid in two steps, with [1, 1, 3]‐trichloroacetone as the labeled intermediate.