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      Chemical Analysis of a "Miller-Type" Complex Prebiotic Broth: Part I: Chemical Diversity, Oxygen and Nitrogen Based Polymers.

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          Abstract

          In a famous experiment Stanley Miller showed that a large number of organic substances can emerge from sparking a mixture of methane, ammonia and hydrogen in the presence of water (Miller, Science 117:528-529, 1953). Among these substances Miller identified different amino acids, and he concluded that prebiotic events may well have produced many of Life's molecular building blocks. There have been many variants of the original experiment since, including different gas mixtures (Miller, J Am Chem Soc 77:2351-2361, 1955; Oró Nature 197:862-867, 1963; Schlesinger and Miller, J Mol Evol 19:376-382, 1983; Miyakawa et al., Proc Natl Acad Sci 99:14,628-14,631, 2002). Recently some of Miller's remaining original samples were analyzed with modern equipment (Johnson et al. Science 322:404-404, 2008; Parker et al. Proc Natl Acad Sci 108:5526-5531, 2011) and a total of 23 racemic amino acids were identified. To give an overview of the chemical variety of a possible prebiotic broth, here we analyze a "Miller type" experiment using state of the art mass spectrometry and NMR spectroscopy. We identify substances of a wide range of saturation, which can be hydrophilic, hydrophobic or amphiphilic in nature. Often the molecules contain heteroatoms, with amines and amides being prominent classes of molecule. In some samples we detect ethylene glycol based polymers. Their formation in water requires the presence of a catalyst. Contrary to expectations, we cannot identify any preferred reaction product. The capacity to spontaneously produce this extremely high degree of molecular variety in a very simple experiment is a remarkable feature of organic chemistry and possibly prerequisite for Life to emerge. It remains a future task to uncover how dedicated, organized chemical reaction pathways may have arisen from this degree of complexity.

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          Author and article information

          Journal
          Orig Life Evol Biosph
          Origins of life and evolution of the biosphere : the journal of the International Society for the Study of the Origin of Life
          Springer Nature
          1573-0875
          0169-6149
          Jun 2016
          : 46
          : 2-3
          Affiliations
          [1 ] Biologische Experimentalphysik, Universität des Saarlandes, Campus, Geb. B2 1, 66123, Saarbrücken, Germany. eva.wollrab@physik.uni-saarland.de.
          [2 ] Laboratory of Microbial Morphogenesis and Growth, Institut Pasteur, 75724, Paris Cedex 15, France. eva.wollrab@physik.uni-saarland.de.
          [3 ] Biologische Experimentalphysik, Universität des Saarlandes, Campus, Geb. B2 1, 66123, Saarbrücken, Germany.
          [4 ] Laboratoire de Chimie et Physique Multi-échelle des Milieux Complexes (LCP-A2MC), Université de Lorraine, 1 Boulevard Arago, 57078, Metz, France.
          [5 ] Structural and Computational Biology Unit, European Molecular Biology Laboratory, Meyerhofstraße 1, 69117, Heidelberg, Germany.
          [6 ] Helmoltz Zentrum für Infektionsforschung, Inhoffenstraße 7, 38124, Braunschweig, Germany.
          [7 ] Centre of Biomolecular Drug Research, Leibniz University, Schneiderberg 38, 30167, Hannover, Germany.
          [8 ] Biologische Experimentalphysik, Universität des Saarlandes, Campus, Geb. B2 1, 66123, Saarbrücken, Germany. albrecht.ott@physik.uni-saarland.de.
          Article
          10.1007/s11084-015-9468-8
          10.1007/s11084-015-9468-8
          26508401
          6c57ccd0-c475-4bab-b804-eb62b017c79a
          History

          NMR,Miller-Urey experiment,Mass spectrometry,Complex chemical mixture,Origin to life

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