The role of submarine hydrothermal systems in the synthesis of amino acids.

Autor: Aubrey AD; Jet Propulsion Laboratory, California Institute of Technology, 4800 Oak Grove Drive, MS 302-306, Pasadena, CA 91109, USA. Andrew.D.Aubrey@jpl.nasa.gov, Cleaves HJ, Bada JL
Jazyk: angličtina
Zdroj: Origins of life and evolution of the biosphere : the journal of the International Society for the Study of the Origin of Life [Orig Life Evol Biosph] 2009 Apr; Vol. 39 (2), pp. 91-108. Date of Electronic Publication: 2008 Nov 26.
DOI: 10.1007/s11084-008-9153-2
Abstrakt: There is little consensus regarding the plausibility of organic synthesis in submarine hydrothermal systems (SHSs) and its possible relevance to the origin of life. The primary reason for the persistence of this debate is that most experimental high temperature and high-pressure organic synthesis studies have neglected important geochemical constraints with respect to source material composition. We report here the results of experiments exploring the potential for amino acid synthesis at high temperature from synthetic seawater solutions of varying composition. The synthesis of amino acids was examined as a function of temperature, heating time, starting material composition and concentration. Using very favorable reactant conditions (high concentrations of reactive, reduced species), small amounts of a limited set of amino acids are generated at moderate temperature conditions ( approximately 125-175 degrees C) over short heating times of a few days, but even these products are significantly decomposed after exposure times of approximately 1 week. The high concentration dependence observed for these synthetic reactions are demonstrated by the fact that a 10-fold drop in concentration results in orders of magnitude lower yields of amino acids. There may be other synthetic mechanisms not studied herein that merit investigation, but the results are likely to be similar. We conclude that although amino acids can be generated from simple likely environmentally available precursors under SHS conditions, the equilibrium at high temperatures characteristic of SHSs favors net amino acid degradation rather than synthesis, and that synthesis at lower temperatures may be more favorable.
Databáze: MEDLINE
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