Litcius/Paper detail

A Prebiotic Precursor to Life’s Phosphate Transfer System with an ATP Analog and Histidyl Peptide Organocatalysts

Oliver R. Maguire, Iris B. A. Smokers, Bob G. Oosterom, Alla Zheliezniak, Wilhelm T. S. Huck

2024Journal of the American Chemical Society16 citationsDOIOpen Access PDF

Abstract

Biochemistry is dependent upon enzyme catalysts accelerating key reactions. At the origin of life, prebiotic chemistry must have incorporated catalytic reactions. While this would have yielded much needed amplification of certain reaction products, it would come at the possible cost of rapidly depleting the high energy molecules that acted as chemical fuels. Biochemistry solves this problem by combining kinetically stable and thermodynamically activated molecules (e.g., ATP) with enzyme catalysts. Here, we demonstrate a prebiotic phosphate transfer system involving an ATP analog (imidazole phosphate) and histidyl peptides, which function as organocatalytic enzyme analogs. We demonstrate that histidyl peptides catalyze phosphorylations via a phosphorylated histidyl intermediate. We integrate these histidyl-catalyzed phosphorylations into a complete prebiotic scenario whereby inorganic phosphate is incorporated into organic compounds though physicochemical wet-dry cycles. Our work demonstrates a plausible system for the catalyzed production of phosphorylated compounds on the early Earth and how organocatalytic peptides, as enzyme precursors, could have played an important role in this.

Topics & Concepts

ChemistryCatalysisEnzymePhosphatePrebioticEnzyme catalysisCombinatorial chemistryAbiogenesisBiochemistryOrganic chemistryBiologyGeneticsOrigins and Evolution of LifeProtein Structure and DynamicsEnzyme Structure and Function