A Prebiotic Pathway to Nicotinamide Adenine Dinucleotide

Enzymes play a fundamental role in cellular metabolism. A wide range of enzymes require the presence of complementary coenzymes and cofactors to function properly. While coenzymes are believed to have been part of the last universal ancestor (LUCA) or have been present even earlier, the syntheses of crucial coenzymes like the redox‐active coenzymes flavin adenine dinucleotide (FAD) or nicotinamide adenine dinucleotide (NAD+) remain challenging. Here, we present a pathway to NAD+ under prebiotic conditions starting with ammonia, cyanoacetaldehyde, prop‐2‐ynal and sugar‐forming precursors, yielding in situ the nicotinamide riboside. Regioselective phosphorylation and water stable light activated adenosine monophosphate derivatives allow for topographically and irradiation‐controlled formation of NAD+. Our findings indicate that NAD+, a coenzyme vital to life, can be formed non‐enzymatically from simple organic feedstock molecules via photocatalytic activation under prebiotically plausible early Earth conditions in a continuous process under aqueous conditions. Photochemical activation is the key in the prebiotic synthesis of nicotinamide adenine dinucleotide: NAD+ is obtained under prebiotic conditions by formation of nicotinamide riboside from ammonia, cyanoacetaldehyde, prop‐2‐ynal, glycol aldehyde and glyceraldehyde. Regioselective phosphorylation and use of light activated AMP yields NAD+ in a continuous formation process.