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A14. Links and References

iconexternal_link.gifB. Subtilis: 271

iconexternal_link.gifThe Origins of Life on Earth, Leslie Orgel

iconexternal_link.gifOrgel: Scientific Am Article

iconexternal_link.gifInterview with Stanley Miller

iconexternal_link.gifVenter synthesizes whole bacterial genome |

iconexternal_link.gifExploring Life's Origins

iconexternal_link.gifTed Talk: Protocells

 References

  1. Longo, L, Lee, Jihun and Blaber, M. Simplified protein design biased for prebiotic amino acids yield a foldable, halophilic protein.  PNAS.  110, 2135 (2013)

  2. Morowitz, H. et al. Ligand Field Theory and the Origin of Life as an Emergent Feature of the Periodic Table of Elements.  Biol Bull. 219, 1-6 (2010)

  3. Pinheiro, V. et al. Synthetic genetic polymers capable of heredity and evolution.  Science 336, 341 (2012)

  4. Lane, N et al. How did LUCA make a living? Chemisomosis in the origin of life. BioEssays 9999, 1-10 (2010) DOI 10.1002/bies.200900131

  5. Russell, M, and Martin, W. The rocky roots of the AcetylCoA pathway. TIBS, 29, pg 358 (2004)

  6. Shock EL, McCollom TM, Schulte MD. The emergence of metabolism from within hydrothermal systems. In Wiegel J, Adams MWW. ed; Thermophiles: The Keys to Molecular Evolution and the Origin of Life. London: Taylor & Francis. p 59�76.a998)

  7. Powner, M et al. Synthesis of activated pyrimidine ribonucleotides in prebiotically plausible conditions. Nature 459, 239-242 (14 May 2009) | doi:10.1038/nature08013;

  8. Chen, I. The Emergence of Cells During the Origin of Life.  Science 314, 1558 (2006)

  9. Chen, I., Roberts, R. & Szostak, J. The emergence of competition between model protocells. Science 305, 1474 (2004)

  10. Chen, I and Szostak, J.  Membrane growth can generate a transmembrane pH gradient in fatty acid vesicles. PNAS, 101, 7965 (2004)

  11. Leman, L, Orgel, L, and Ghadiri, M. Carbonyl Sulfide-Mediated Prebiotic Formation of Peptides.  Science 306, 283 (2004)

  12. Brenner, S. Understanding Nucleic Acids Using Synthetic Chemistry. Acct. Chem. Research  37, 784 (2004)

  13. Hanczyc, J., Fukikawa, S. and Szostak, J. Experimental Models of Primitive Cellular Compartments: Encapsulation, Growth, and Division. Science 302, 618 (2003)

  14. Kobayashi, K. et al. Essential Bacillus subtilis genes.  PNAS 100, 4678 (2003)

  15. Rasmussen, S. et al. Bridging Nonliving and Living Matter.  Artificial Life 9: 269 (2003)

  16. Krishna N. Ganesh and Peter E. Nielsen. Peptide Nucleic Acids: Analogs and Derivatives. Current Organic Chemistry.  4, 931 (2000)

  17. Saghatelian, A. , Yokobayashi Y, Soltani K, Ghadiri MR.  A chiroselective peptide replicator. Nature 409, 797 (2001). Nelson, K., Levy, M. & Miller, S. Peptide nucleic acids rather than RNA may have been the first genetic molecule. PNAS 97, 3868 (2000)

  18. Luther, A., Brandsch,  R. & von Kiedrowski, G.  Surface-promoted replication and exponential amplification of DNA analogues.  Nature, 396, 245 (1998)

  19. Ferris, J, & Ertem, G et al. Oligmerization of ribonucleotides on montmorillonite: reaction of the 5'-phosphorimidazolide of adenosine.   Science. 257, 1387 (1992)

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