Abstract
All cultures, including the scientific, have creation stories. These reflect the knowledge and values of the tellers of such narratives. Until relatively recently, most such scenarios posited a divine creator or engineer-like god responsible for the creation of the cosmos and the origin of life.
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References
Bachmann, P.A.; Luisi, P.L.; Lang, J., 1992, Autocatalytic self-replication micelles as modes for prebiotic structures, Science, vol. 357, pp. 57–58.
Bernal, J.D., 1951, The Physical Basis of Life, London, Routledge and Kegan Paul.
Bernal, J.D., 1967, The Origin of Life, Cleveland, World.
Brooks, D.R.; Wiley, E.O., 1986, Evolution as Entropy: Toward a Unified Theory of Biology, Chicago, University of Chicago Press.
Brooks, D.R.; Wiley, E.O., 1988 (2nd ed.), Evolution as Entropy: Toward a Unified Theory of Biology, Chicago, University of Chicago Press.
Cairns-Smith, A.G., 1982, Genetic Takeover and the Mineral Origins of Life, Cambridge, Cambridge University Press.
Carter, C.W. Jr.; Kraut, J., 1974, A proposed model for interaction of polypeptides with RNA, Proc. Nat. Acad. Sci. USA, vol. 71, pp. 283–287.
Cech, T.R., 1986, A model for the RNA-catalyzed replication of RNA, Proc. Nat. Acad. Sci. USA, vol. 83, pp. 4360–4363.
Cech, T.R., 1987, The chemistry of self-splicing RNA and RNA enzymes, Science, vol. 236, pp. 15321539.
Conrad, M., 1982, Bootstrapping model of the origin of life, BioSystems, vol. 15, pp. 209–219. Darwin, C.R., 1859, On the Origin of Species by Means of Natural Selection or the Preservation of Favored Races in the Struggle for Life, London, John Murray.
Dawkins, R., 1976, The Selfish Gene, Oxford, Oxford University Press.
Dawkins, R., 1989, The Selfish Gene: New Edition, Oxford, Oxford University Press.
Deamer, D.W., 1992, Polycyclic aromatic hydrocarbons: Primitive pigment systems in the prebiotic environment, Adv. Space Res, vol. 12, pp. 183–189.
Deamer, D.W.; Harang, E., 1990, Light-dependent pH gradients are generated in liposomes containing ferrocyanide, BioSystems, vol. 24, pp. 1–4.
Deamer, D.W.; Pashley, R.M., 1989, Amphiphilic components of the Murchison carbonaceious chondrite: Surface properties and membrane formation, Origin of Life and Evolution of the Biosphere, vol. 19, pp. 21–38.
Depew, D.J.; Weber, B.H., 1995, Darwinism Evolving: Systems Dynamics and the Genealogy of Natural Selection, Cambridge MA, Bradford/The MIT Press.
Desmond, A., 1989, The Politics of Evolution, Chicago, University of Chicago Press. Desmond, A.; Moore, J., 1991, Darwin, London, Michael Joseph.
Doudna, J.A., Szostak, J.W., 1989, RNA-catalysed synthesis of complementary-strand RNA, Nature, vol. 339, pp. 519–522.
Eigen, M., 1992, Steps Towards Life: A Perspective on Evolution, Oxford, Oxford University Press.
Fox, S.W., 1965, Simulated natural experiments in spontaneous organization of morphological units from proteinoid, in The Origins of Prebiological Systems and Their Molecular Matrices, S.W. Fox (ed.), New York, Academic Press, pp. 361–382.
Fox, S.W., 1980, The origins of behavior in macromolecules and protocells, Comparative Biochemistry and Physiology, vol. 67B, pp. 423–436.
Fox, S.W., 1988, The Emergence of Life: Darwinian Evolution from the Inside, NY, Basic Books. Gesteland, R.F.; Atkins, J.F., 1993, The RIVA World: The Nature of Modern RNA Suggests a Prebiotic RIVA World, Cold Spring Harbor, Cold Spring Harbor Laboratory Press.
Haldane, J.B.S., 1929, The origin of life, Rationalist Animal, reprinted in The Origin of Life, J.D. Bernal (ed.), 1967, Cleveland, World, pp. 242–249.
Harold, F.M., 1986, The Vital Force: A Study of Bioenergetics, New York, Freeman.
Joyce, G.F.; Orgel, L.E., 1993, Prospects for understanding the origin of the RNA world, in The RNA
World, R.F. Gesteland and J.F. Atkins (eds.), Cold Spring Harbor, Cold Spring Harbor Laboratory Press, pp. 1–25.
Kauffman, S.A., 1993, The Origins of Order: Self-Organization and Selection in Evolution, New York, Oxford University Press.
Langton, C.G., 1986, Studying artificial life with cellular automata, Physica (D), vol. 22, pp. 120–149.
Langton, C.G., 1992, Life at the edge of chaos, in Artificial Life II, C.G. Langton, C. Taylor, J.D. Farmer and S. Rasmussen (eds.), Reading MA, Addison-Wesley, pp. 41–91.
Lorsch, J.R.; Szostak, J.W., 1994, In vitro evolution of new ribozymes with polynucleotide kinase activity, Nature, vol. 371, pp. 31–36.
Miller, S., 1953, A production of amino acids under possible primitive earth conditions, Science, vol. 117, pp. 528–531.
Mitchell, P.D., 1961, Coupling of phosphorylation to electron and hydrogen transfer by a chemiosmotic type of mechanism, Nature, vol. 191, pp. 144–148.
Mitchell, P.D., 1979, Keilin’s respiratory chain concept and its chemiosmotic consequences, Science, vol. 206, pp. 1148–1159.
Morowitz, H., 1992, Beginnings of Cellular Life: Metabolism Recapitulates Biogenesis, New Haven, Yale University Press.
Morowitz, H.; Deamer, D.W.; Smith, T., 1991, Biogenesis as an evolutionary process, Journal of Molecular Evolution, vol. 33, pp. 207–208.
Oparin, A.I., 1924, Proiskhozhdenie zhizy, Moscow, Moskovski Rabochii.
Oparin, A.I., 1938, The Origin of Life, London, Macmillan.
Orgel, L.E., 1968, Evolution of the genetic apparatus, Journal of Molecular Biology, vol. 38, pp. 381393.
Orgel, L.E., 1992, Molecular replication, Nature, vol. 358, pp. 203–209.
Ourisson, G.; Nakatani, Y., 1994, The terpenoid theory of the origin of cellular life: The evolution of terpenoids to cholesterol, Current Biology, vol. 1, pp. 11–23.
Salthe, S.N., 1991, Formal considerations on the origin of life, Uroboros, vol. 1, pp. 45–65.
Swenson, R., 1989, Emergent attractors and the law of maximum entropy production: Foundation to a theory of general evolution, Systems Research, vol. 6, pp. 187–197.
Swenson, R., 1998, Spontaneous Order, Evolution, and Autocatakinetics: The Nomological Basis for the Emergence of Meaning, Hillsdale, NJ, Lawrence Erlbaum Associates.
Ulanowicz, R.E., 1998, Boundaries on the complexity of evolving networks: A window of vitality, in Between Order and Chaos: Studies in Nonequilibrium Biology, J.D. Collier and S. Causey (eds.). Wang, J.-F.; Downs, W.D.; Cech, T.R., 1993, Movement of the guide sequence during RNA catalysis by a group I ribozyme, Science, vol. 260, pp. 504–508.
Weber, B.H.; Depew, D.J.; Dyke, C.; Salthe, S.N.; Schneider, E.D.; Ulanowicz, R.E.; Wicken, J.S., 1989, Evolution in thermodynamic perspective: An ecological approach, Biology and Philosophy, vol. 4, pp. 373–405.
Weber, B.H.; Depew, D.J., 1996, Natural selection and self-organization: Dynamical models as clues to a new evolutionary synthesis, Biology and Philosophy, vol. 11, pp. 33–65.
Westheimer, F.H., 1987, Why nature chose phosphates, Science, vol. 235, pp. 1173–1178.
Wicken, J.S., 1987, Evolution, Information and Thermodynamics: Extending the Darwinian Program, New York, Oxford University Press.
Wilson, C.; Szostak, J.W., 1995, In vitro evolution of a self-alkylating ribozyme, Nature, vol. 374, pp. 777–782.
Woese, C., 1967, The evolution of the genetic code, The Genetic Code, New York, Harper and Row, pp. 179–195.
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Weber, B.H. (1998). Emergence of Life and Biological Selection from the Perspective of Complex Systems Dynamics. In: van de Vijver, G., Salthe, S.N., Delpos, M. (eds) Evolutionary Systems. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-1510-2_6
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