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Reduction of NAD and NMN on mineral surfaces with H2 reveals a functional role for the AMP moiety in a prebiotic context

Delfina P. Henriques Pereira, Xiulan Xie, S Stewart, Zainab Subrati, Tuğçe Beyazay, Nicole Paczia, Jürgen Belz, Kerstin Volz, Valentina Erastova, Harun Tüysüz, Martina Preiner

2025Communications Chemistry6 citationsDOIOpen Access PDF

Abstract

Many cofactors share a molecular structure - adenosine monophosphate (AMP) - that otherwise occurs in nucleic acids. The presence of AMP in cofactors has presented an evolutionary puzzle. Is it a biochemical 'handle' that allows proteins to bind the cofactor more tightly, or a relic from a prebiotic time when cofactors arose? Using the example of nicotinamide adenine dinucleotide (NAD), we find a previously unknown property of its AMP handle. Experiments with hydrogen gas on mineral surfaces show that the handle-free nicotinamide mononucleotide (NMN) overreduces quickly, while NAD gets reduced specifically. The handle allows NAD to function in a hydrothermal, mineral-based setting, indicating that it is a form of protection against a harsh environment. Our findings uncover a specific functional role for the AMP moiety of NAD under environmental conditions capable of non-enzymatic NAD reduction, thereby identifying a structural element of a redox cofactor that is older than the enzymes using it.

Topics & Concepts

NAD+ kinaseCofactorChemistryNicotinamide adenine dinucleotideNicotinamide mononucleotideMoietyContext (archaeology)StereochemistryBiochemistryEnzymeNiacinamideNicotinamideRedoxAdenosine monophosphateNucleotideNucleic acidAdenosinePyrophosphateActive siteDehydrogenaseOxidoreductaseFlavin mononucleotideEnzyme catalysisBiochemical and Molecular ResearchMetalloenzymes and iron-sulfur proteinsOrigins and Evolution of Life
Reduction of NAD and NMN on mineral surfaces with H2 reveals a functional role for the AMP moiety in a prebiotic context | Litcius