Litcius/Paper detail

One-Pot Hydrogen Cyanide-Based Prebiotic Synthesis of Canonical Nucleobases and Glycine Initiated by High-Velocity Impacts on Early Earth

Martin Ferus, Paul B. Rimmer, Giuseppe Cassone, Antonín Knížek, Svatopluk Civiš, Judit E. Šponer, Ondřej Ivanek, Jiřı́ Šponer, Homa Saeidfirozeh, Petr Kubelík, R. Dudžák, Lukáš Petera, L. Juha, Adam Pastorek, Anna Křivková, M. Krůs

2020Astrobiology44 citationsDOI

Abstract

Chemical environments of young planets are assumed to be significantly influenced by impacts of bodies lingering after the dissolution of the protoplanetary disk. We explore the chemical consequences of impacts of these bodies under reducing planetary atmospheres dominated by carbon monoxide, methane, and molecular nitrogen. Impacts were simulated by using a terawatt high-power laser system. Our experimental results show that one-pot impact-plasma-initiated synthesis of all the RNA canonical nucleobases and the simplest amino acid glycine is possible in this type of atmosphere in the presence of montmorillonite. This one-pot synthesis begins with de novo formation of hydrogen cyanide (HCN) and proceeds through intermediates such as cyanoacetylene and urea.

Topics & Concepts

CyanoacetyleneNucleobaseHydrogen cyanideChemistryGlycineEarly EarthNitrogenAstrobiologyEarth (classical element)AbiogenesisAtmosphere (unit)HydrogenDissolutionAmino acidMoleculeInorganic chemistryOrganic chemistryBiochemistryDNAPhysicsMathematical physicsThermodynamicsOrigins and Evolution of LifeAstro and Planetary SciencePhotoreceptor and optogenetics research