Prebiotically Plausible RNA Activation Compatible with Ribozyme‐Catalyzed Ligation

RNA‐catalyzed RNA ligation is widely believed to be a key reaction for primordial biology. However, since typical chemical routes towards activating RNA substrates are incompatible with ribozyme catalysis, it remains unclear how prebiotic systems generated and sustained pools of activated building blocks needed to form increasingly larger and complex RNA. Herein, we demonstrate in situ activation of RNA substrates under reaction conditions amenable to catalysis by the hairpin ribozyme. We found that diamidophosphate (DAP) and imidazole drive the formation of 2′,3′‐cyclic phosphate RNA mono‐ and oligonucleotides from monophosphorylated precursors in frozen water‐ice. This long‐lived activation enables iterative enzymatic assembly of long RNAs. Our results provide a plausible scenario for the generation of higher‐energy substrates required to fuel ribozyme‐catalyzed RNA synthesis in the absence of a highly evolved metabolism. A plausible scenario for the prebiotic generation of activated RNA substrates under mild aqueous conditions is presented. Using water‐soluble diamidophosphate, in situ production of 2′,3′‐cyclic phosphate‐activated oligoribonucleotides and their subsequent ligation by a ribozyme can be achieved.