Synthesis of porphobilinogen-9-14C

## Abstract Porphobilinogen‐11‐^13^C was prepared by using benzyl 3‐(β‐methoxycarbonylethyl)‐4‐ (methoxycarbonylmethyl)‐2‐pyrrolecarboxylate as a starting material. A Vilsmeier‐Haak formylation with N,N′‐dimethylform‐^13^C‐amide gave the 2‐formylpyrrole, which was transformed into its oxime, and th

## Abstract The synthesis of [^14^C] PMEA (3) was achieved by coupling the sodium salt of 8‐[^14^C]adenine (1) with 2‐(diisopropyl‐phosphonymethoxy) ethanol methanesulfonate in N,N‐dimethylformamide at 100°C to provide the diisopropyl ester (2). Deesterification with bromotrimethylsilane in acetoni

## Abstract [4‐^13^C]‐porphobilinogen 1a, [3‐^13^C]‐porphobilinogen 1b and [11‐^13^C]‐porphobilinogen 1c are prepared from [1‐^13^C]‐3‐(tetrahydropyran‐2′‐yloxy)‐propionaldehyde 2a, methyl [4‐^13^C]‐4‐nitrobutyrate 3b and [1‐^13^C]‐isocyanoacetonitrile 5c, respectively. The building blocks 2, 3 and

## Abstract The synthesis of the title compounds [^14^C]‐PMEG (5) and [^14^c]‐EPMG (6) are described. Treatment of [^14^C]guanine with acetic anhydride in 1‐methyl‐2‐pyrrolidinone gave [^14^C]N‐acetylguanine (2). Reaction with 2‐(diethylphosphonomethoxy) ethylmethanesulfonate in N,N‐dimethylformami