Robert M. Hazen1 and Dimitri A. Sverjensky2
-Author Affiliations
1Geophysical Laboratory, Carnegie Institution of Washington, Washington, DC 20015
2Department of Earth and Planetary Sciences, Johns Hopkins University, Baltimore, Maryand 21218
Correspondence:rhazen@ciw.edu
Abstract
Crystalline surfaces of common rock-forming minerals are likely to have played several important roles in life’s geochemical origins. Transition metal sulfides and oxides promote a variety of organic reactions, including nitrogen reduction, hydroformylation, amination, and Fischer-Tropsch-type synthesis. Fine-grained clay minerals and hydroxides facilitate lipid self-organization and condensation polymerization reactions, notably of RNA monomers. Surfaces of common rock-forming oxides, silicates, and carbonates select and concentrate specific amino acids, sugars, and other molecular species, while potentially enhancing their thermal stabilities. Chiral surfaces of these minerals also have been shown to separate left- and right-handed molecules. Thus, mineral surfaces may have contributed centrally to the linked prebiotic problems of containment and organization by promoting the transition from a dilute prebiotic “soup” to highly ordered local domains of key biomolecules.
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