Timothy R. Filley scite author profile

The emergence of biochemical homochirality was a key step in the origin of life, yet prebiotic mechanisms for chiral separation are not well constrained. Here we demonstrate a geochemically plausible scenario for chiral separation of amino acids by adsorption on mineral surfaces. Crystals of the common rock-forming mineral calcite (CaCO3), when immersed in a racemic aspartic acid solution, display significant adsorption and chiral selectivity of D-and L-enantiomers on pairs of mirror-related crystal-growth surfaces. This selective adsorption is greater on crystals with terraced surface textures, which indicates that D-and L-aspartic acid concentrate along step-like linear growth features. Thus, selective adsorption of linear arrays of D-and L-amino acids on calcite, with subsequent condensation polymerization, represents a plausible geochemical mechanism for the production of homochiral polypeptides on the prebiotic Earth.

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Timothy R. Filley

Organic C and N stabilization in a forest soil: Evidence from sequential density fractionation

Selective adsorption ofl- andd-amino acids on calcite: Implications for biochemical homochirality

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