SEARCH

SEARCH BY CITATION

REFERENCES

  • 1
    Kant, I. Kritik der Urteilskraft. Available at: http://gutenberg.spiegel.de/buch/3507/85, 1790. Accessed on 2011.
  • 2
    Haeckel, E. Über die Entwicklungstheorie Darwins. Amtlicher Bericht der Versammlung Deutscher Naturforscher und Aerzte 1863, 38, 1730.
  • 3
    Keller, E.F. Is Darwin a “Newton of the Grass Blade”? Lecture given at the University of Vienna, Physics Department, Nov. 05, 2010.
  • 4
    Schuster, P. Origins of life: Concepts, data, and debates. Complexity 2009, 15, 710.
  • 5
    Kant, I. Metaphysische Anfangsgründe der Naturwissenschaft; Johann Friedrich Hartknoch: Riga, 1786;Ellington, J.Metaphysical Foundations of Science;Bobbs-Merrill:Indianapolis, IN,1970. (English Translation).
  • 6
    Lorenz, E.N. Deterministic nonperiodic flow. J Atmos Sci 1963, 20, 130141.
  • 7
    Sigler, L.E. Fibonacci's Liber Abaci: A translation into modern english of Leonardo Pisano's book of calculation. A translation of Leonardo Pisano's book of 1202 from Latin into modern English. Springer-Verlag: New York, 2002.
  • 8
    Darwin, C. On the origin of species by means of natural selection or the preservation of favoured races in the struggle for life; John Murray: London, 1859.
  • 9
    Schuster, P. Mathematical modeling of evolution. Solved and open problems. Theory Biosci 2010, 130, 7189.
  • 10
    Mayr, E. The Growth of Biological Thought. Diversity, Evolution, and Inheritance; The Belknap Press of Harvard University Press: Cambridge, MA, 1982.
  • 11
    Thompson, D'Arcy W. On Growth and Form; Cambridge University Press: Cambridge UK, 1917.
  • 12
    Fisher, R.A. The Genetical Theory of Natural Selection; Clarendon Press: Oxford UK, 1930.
  • 13
    Stebbins, G.L. Variation and Evolution of Plants; Columbia University Press: New York, 1950.
  • 14
    Keller, E.F. Making Sense of Life. Explaining Biological Development with Models, Metaphors, and Machines; Harvard University Press: Cambridge, MA, 2003.
  • 15
    Turing, A.M. The chemical basis of morphogenesis. Phil Trans Roy Soc London B 1952, 237, 3772.
  • 16
    Sagues, F.;Epstein, I.R. Nonlinear chemical dynamics. Dalton Trans 2003, 7, 12011217.
  • 17
    Meinhardt, H.;Gierer, A. Pattern formation by local self-activation and lateral inhibition. BioEssays 2000, 22, 753760.
  • 18
    Meinhardt, H. Models of Biological Pattern Formation; Academic Press, London, 1982.
  • 19
    Murray, J.D. How the leopard gets its spots. Sci Am 1988, 258, 8087.
  • 20
    Bard, J.;Lauder, I. How well does Turing's theory of morphogenesis work? J Theoret Biol 1974, 45, 501531.
  • 21
    Nüsslein-Volhard, C.;Frohnhöfer, H.G.;Lehmann, R. Determination of anteroposterior polarity in drosophila. Science 1987, 238, 16751681.
  • 22
    StJohnston, D.;Nüsslein-Volhard, C. The origin of pattern and polarity in the drosophila embryo. Cell 1992, 68, 201219.
  • 23
    Löhr, U.;Chung H.-R.;Beller, M.;Jäckle, H. Bicoid – Morphogen function revisited. Fly 2010, 4, 236240.
  • 24
    Maini, P.K.;Painter, K.J.;Chau, H.N.P. Spatial pattern fomration in chemical and biochemical systems. J Chem Soc Faraday Trans 1997, 93, 36013610.
  • 25
    Schuster, P. A beginning of the end of the holism versus redutionism debate? Complexity 2007, 13, 1013.
  • 26
    Brenner, S. Theoretical biology in the third millenium. Phil Trans Roy Soc London B 1999, 354, 19631965.
  • 27
    Eigen, M. Self-organization of matter and the evolution of biological macromolecules. Die Naturwissenschaften 1971, 58, 465523.
  • 28
    Eigen, M.;Schuster, P. The Hypercycle. A Principle of Natural Self-Organization; Springer-Verlag: Berlin, 1979.
  • 29
    Joyce, G.F. Forty years of in vitro evolution. Angew Chem Int Ed Engl 2007, 46, 64206436.
  • 30
    Klussmann, S. The Aptamer Handbook. Fuctional Oligonucleotides and Their Applications; Wiley-VCh: Weinheim (Bergstraße), DE, 2006.
  • 31
    Brakmann, S.;Johnsson, K. Directed Molecular Evolution of Proteins or How to Improve Enzymes for Biocatalysis; Wiley-VCh: Weinheim (Bergstraße), DE, 2002.