J.A. Silfer scite author profile

A significant portion of prebiotic organic matter on the early Earth may have been introduced by carbonaceous asteroids and comets. The distribution and stable-isotope composition of individual organic compounds in carbonaceous meteorites, which are thought to be derived from asteroidal parent bodies, may therefore provide important information concerning mechanistic pathways for prebiotic synthesis and the composition of organic matter on Earth before living systems developed. Previous studies have shown that meteorite amino acids are enriched in 13C relative to their terrestrial counterparts, but individual species were not distinguished. Here we report the 13C contents of individual amino acids in the Murchison meteorite. The amino acids are enriched in 13C, indicating an extraterrestrial origin. Alanine is not racemic, and the 13C enrichment of its D- and L-enantiomers implies that the excess of the L-enantiomer is indigenous rather than terrestrial contamination, suggesting that optically active materials were present in the early Solar System before life began.

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Kinetic fractionation of stable carbon and nitrogen isotopes during peptide bond hydrolysis: Experimental evidence and geochemical implications

Silfer

Engel

Macko

1992

Chemical Geology: Isotope Geoscience section

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Geochemical characterization of high molecular weight material isolated from late cretaceous fossils

Ostrom

Macko

Engel

et al. 1990

Organic Geochemistry

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Stable isotope analysis at the molecular level: A new approach for determining the origins of amino acids in the Murchison meteorite

Engel

Macko

Qian

et al. 1995

Advances in Space Research

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J.A. Silfer

Stable carbon isotope analysis of amino acid enantiomers by conventional isotope ratio mass spectrometry and combined gas chromatography/isotope ratio mass spectrometry

Carbon isotope composition of individual amino acids in the Murchison meteorite

Kinetic fractionation of stable carbon and nitrogen isotopes during peptide bond hydrolysis: Experimental evidence and geochemical implications

Geochemical characterization of high molecular weight material isolated from late cretaceous fossils

Stable isotope analysis at the molecular level: A new approach for determining the origins of amino acids in the Murchison meteorite

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