An Evaluation of the Critical Parameters for Abiotic Peptide Synthesis in Submarine Hydrothermal Systems

Cleaves, HJ, Aubrey AD, Bada JL.  2009.  An Evaluation of the Critical Parameters for Abiotic Peptide Synthesis in Submarine Hydrothermal Systems. Origins of Life and Evolution of Biospheres. 39:109-126.

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alpha-amino-acids, amino acids, aqueous-solution, bond, Chemical evolution, chemistry, condensation, flow reactor, high-temperature, hydrolysis, life, metal ions, mineral surfaces, origin of life, Peptides, Prebiotic, prebiotic oligomerization, Submarine hydrothermal vents, thermal


It has been proposed that oligopeptides may be formed in submarine hydrothermal systems (SHSs). Oligopeptides have been synthesized previously under simulated SHS conditions which are likely geochemically implausible. We have herein investigated the oligomerization of glycine under SHS-like conditions with respect to the limitations imposed by starting amino acid concentration, heating time, and temperature. When 10(-1) M glycine solutions were heated at 250A degrees C for < 20 min glycine oligomers up to tetramers and diketopiperazine (DKP) were detectable. At 200A degrees C, less oligomerization was noted. Peptides beyond glycylglycine (gly(2)) and DKP were not detected below 150A degrees C. At 10(-2) M initial glycine concentration and below, only gly(2), DKP, and gly(3) were detected, and then only above 200A degrees C at < 20 min reaction time. Gly(3) was undetectable at longer reaction times. The major parameters limiting peptide synthesis in SHSs appear to be concentration, time, and temperature. Given the expected low concentrations of amino acids, the long residence times and range of temperatures in SHSs, it is unlikely that SHS environments were robust sources of even simple peptides. Possible unexplored solutions to the problems presented here are also discussed.