Los demonios de Darwin : Semiótica y termodinámica de la evolución biológica
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- Autores:
-
Andrade Pérez, Luis Eugenio
- Tipo de recurso:
- Book
- Fecha de publicación:
- 2003
- Institución:
- Universidad Nacional de Colombia
- Repositorio:
- Universidad Nacional de Colombia
- Idioma:
- spa
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- oai:repositorio.unal.edu.co:unal/85664
- Acceso en línea:
- https://repositorio.unal.edu.co/handle/unal/85664
- Palabra clave:
- 570 - Biología
Evolución (Biología)
Filosofía de la Biología
Propiedades biológicas
Teoría de la información en biología
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dc.title.spa.fl_str_mv |
Los demonios de Darwin : Semiótica y termodinámica de la evolución biológica |
title |
Los demonios de Darwin : Semiótica y termodinámica de la evolución biológica |
spellingShingle |
Los demonios de Darwin : Semiótica y termodinámica de la evolución biológica 570 - Biología Evolución (Biología) Filosofía de la Biología Propiedades biológicas Teoría de la información en biología |
title_short |
Los demonios de Darwin : Semiótica y termodinámica de la evolución biológica |
title_full |
Los demonios de Darwin : Semiótica y termodinámica de la evolución biológica |
title_fullStr |
Los demonios de Darwin : Semiótica y termodinámica de la evolución biológica |
title_full_unstemmed |
Los demonios de Darwin : Semiótica y termodinámica de la evolución biológica |
title_sort |
Los demonios de Darwin : Semiótica y termodinámica de la evolución biológica |
dc.creator.fl_str_mv |
Andrade Pérez, Luis Eugenio |
dc.contributor.author.none.fl_str_mv |
Andrade Pérez, Luis Eugenio |
dc.subject.ddc.spa.fl_str_mv |
570 - Biología |
topic |
570 - Biología Evolución (Biología) Filosofía de la Biología Propiedades biológicas Teoría de la información en biología |
dc.subject.lemb.none.fl_str_mv |
Evolución (Biología) Filosofía de la Biología Propiedades biológicas Teoría de la información en biología |
description |
ilustraciones |
publishDate |
2003 |
dc.date.issued.none.fl_str_mv |
2003 |
dc.date.accessioned.none.fl_str_mv |
2024-02-08T04:50:58Z |
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2024-02-08T04:50:58Z |
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Libro |
dc.type.driver.spa.fl_str_mv |
info:eu-repo/semantics/book |
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https://repositorio.unal.edu.co/handle/unal/85664 |
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Ulanowicz, R.E. Aristotelian casualities in ecosystem development. 57, Oikos, p. 42-48, 1990. Monod, J. El azar y la necesidad, Barcelona, Ed. Orbis, S.A., p. 13, 1970. Kant, I. Critique of Judgment, traducido por J.H. Bernard, Nueva York, Hafner Press, p. 373/219-220, 1951. Kolb, D. Kant, Teleology and Evolution, Synthese, 91, p. 9-28, 1992. Stewart I., ¿Juega Dios a los dados?, Grijalbo Mondadori, Barcelona, p. 16. 1997. Ito, K. y P. Y. Gunjii. Self-organization towards criticality in the game of life, BioSystems, 26, p. 135-138, 1992 Schrödinger, E., Ciencia y humanismo, Barcelona, Tusquet Ed., primera edición, p. 20-21, 1951. Bohm, D. Wholeness and the Implicate Order, Londres y Nueva York, Ark Papers, 1980. Judson, H. F. The Eigth Day of Creation, Nueva York, Knofp, 1978. Bohr, N. Light and Life, Nature, 131, 421-423, 1933. Andrade, L. E., Lavoisier y química del S. XVIII, Revista de la Academia Colombiana de Ciencias Exactas, Físicas y Naturales, XVII, 67, p. 786, 1990. Prigogine, I. e I. Stengers. Order out of Chaos, Toronto, Nueva York, Bantam Books, p. 79-86, 1984. Venel, G. F. Encyclopédie ou Dictionnaire raisonné des sciences, des arts et de métiers par una societé des gens de lettres,Chymie, D. Di- derot et J. dÁlembert, París, p. 413, 1753. Césarman E., Hombre y entropía, Ed. Pax, México, S. A., p. 53, 1974. Senent, J. Presentación de la filosofía zoológica de Lamarck, Barcelona, Editorial Mateu, p. 13-14, 1971. Canguilhem, G. El conocimiento de la vida, Barcelona, Editorial Anagrama, p. 95-115/80, 1976. Bowler, P. J. El Eclipse del Darwinismo, Barcelona, Labor Universitaria, p.89, 1985. Lewontin, R, y R. Levins The Dialectical Biologist, Cambridge, MA. Harvard University Press, 176-177, 1985. Waddington, C. H. Hacia una biología teórica, Madrid, Alianza Editorial, S.A., p. 30-34, 1976. Steele, J. Somatic Selection and Adaptive Evolution, On the Inheritance of acquired Characters, Chicago, IL. The University of Chicago Press, 1979. Cairns, J., J. Overbaug y S. Miller The Origin of Mutants, Nature, 335, p. 142-145, 1988. Wesson, R. Beyond Natural Selection, Canbridge, Massa chusetts, The MIT Press, p. 222-226, 1991. Waddington, C.H. La evolución de las adaptaciones, Endeavour, p. 134-139, julio 1953. Bateson, G. Steps to an Ecologyof Mind, Northvale, Nueva Jersey, Londres, Jason Aronson Inc., p.354-355, 1987. Andrade, L. E. Holismo y reduccionismo en el desarrollo de la biología molecular, Memorias Seminario Nacional, Academia Colombiana de Ciencias Exactas, Físicas y Naturales, p. 17-40, 1994. Andrade, L. E. Analogías entre las teorías de la materia, de la evolu- ción biológica y la sociedad, Memorias Seminario de ciencia teórica. Academia Colombiana de Ciencias Exactas, Físicas y Naturales, Co- lección memorias, 8, p. 104-106, 1996. Morowitz, H. J. Beginnings of Cellular Life: Metabolism Recapitulates Biogenesis, Yale University Press, p. 69, 1992. Cadena,L.A. Selección y neutralidad. ¿Antagónicas?, Innovación y ciencia, IV, 1, p. 26-31, 1995. Penrose,R. The Emperor’s New Mind, Oxford University Press, p. 314, 1989. Salthe, S. Development and Evolution. Complexity and Change in Biology, A Bradford Book, Cambridge, Massachusetts, Londres, Ingla- terra, The MIT Press, p. 9 y 45, 1993. Fisher, The correlation between relatives on the supposition of Mendelian inheritance,Transactions of the Royal Society of Edinburgh 52, p. 399-433. 1918. Fisher, R. A. On the dominance ratio. Proc. Roy. Soc. Edinburgh. 42, p. 321-341, 1922. Fisher, R.A., The Genetical Theory of Natural Selection, Claredon Press, Oxford, England. Second revised edition (1958), New York Dover PublicationsFisher, 1930. Fisher, En: Depew, D.J. y B. Weber. (1996) Darwinism Evolving: System Dynamics and the Genealogy of Natural Selection. The MIT Press. Massachussets Institute of Technology. Cambridge, Mass 02142, 1932. Margulis, L. y D. Sagan, What Is Life?, Simon y Schuster, p. 44, 1995. Gould, S.J. citado en John Brockman, The Third Culture, Simon y Schuster, p. 52, 1995. Dawkins, R., citado en John Brockman, The Third Culture, Simon y schudter, p. 84, 1995. Maynard Smith,J. y E. Szathmáry, The Major Transitions in Evolu- tion, W. H. Oxford University Press, p. 4-5, 2001. Dobzhansky, T. Studies in the Philosophy of Biology:Reduction and Related Problems, Francisco J. Ayala y Theodosius Dobzhansky, eds., University of California Press, p. 311, 1974. Wilson, E. O. The Diversity of Life, Harvard University Press, p. 187, 1992. Eigen, M. y R. Winkler, Laws of the game, Nueva York. Alfred A. Knopf, p. 146-148, 1981. Heimann, P. M. Molecular Forces, Statical Representation and Maxwell Demon, Studies on History and Philosophy of Science, 1, p. 189-211, 1970. Maxwell, 1890. En: Depew, D.J. y B. Weber. (1996) Darwinism Evolving: System Dynamics and the Genealogy of Natural Selection. The MIT Press. Massachussets Institute of Technology. Cambridge, Mass 02142, 1890. Brillouin, L. Maxwell’s demon cannot operate: Information and Entropy I, Journal Applied Physics, 22,334-337, 1951. Bennet, C. Demons, Engines and the Second Law, Scientific American, 255, 11, 108-116, 1987 Daub, E.E. Maxwell’s demon, Studies History and Philosophy of Science, 1, 213-227, 1970 Maxwell, Carta de Maxwell a Galton. Febrero 26 de 1879, Citado en “Maxwell’s papers at University College”, London (1986), 1879. Frautschi, S. Entropy in an expanding universe, Science, 217, p. 593- 599, 1982. Brooks, D. R. y E. O. Wiley, Evolution as Entropy, The university of chicago Press, 2a edición, p. 37-41, 1988. Landsberg, P. T. Is equlibrium always an entropy maximum?, J. Statical Physics, 35, p. 159-169, 1984. Layzer, D. The arrow of time, Scientific American, 233, p. 56-69, 1988. Wicken, J. A. Thermodynamic Theory of Evolution, Journal Theoretical Biology, 87, p. 9-23, 1980. Wiley, E.O y D.R. Brooks, Victims of history, A non equilibrium approach to evolution, Systematic Zoologist, 3, 1, p. 1-24, 1982. Maturana, H. y F. Valera, The Tree of Knowlwdge, Boston y Londres, Shambala, p. 75-ss, 1992. Rield, R. Biología del conocimiento. Los fundamentos filogenéticos de la razón, Calabria, España, Editorial Labor, S.A., 1983. Kolmogorov, A. N. Logical basis for information theory and probability theory, IEEE Transactions on Information Theory, 14, p. 662-664, 1968. Chaitin, G. J. On the length of programs for computing finite binary sequences: Statical considerations, Journal of the Association for Computing Machinery, 16, p. 145-159, 1969. Goel, N. S. y R. Thompson, Organization of biological Systems, Inter- national Review of Cytology, 103, p. 60-88, 1986. Chaitin, G. J. A theory of program size formally identical to information Theory, Journal of the Association for Computing Machinery, 22, p. 329-340, 1975. Zurek, W. H. Algotithmic randomness and physical entropy, Physical Review A., 40, 8, p. 4731-4751, 1989. Zurek, W. H. Algorithmic Information Content, Church-Turing The- sis, Physical Entropy, and Maxwell’s Demon, Complexity, Entropy, and the Physics of information, SFI Studies in the Science of Comple- xity, Ed. W.,H. Zurek, Addison-Weslwy, VIII, p. 73-89, 1990. Olby, R. An early reference of genetic coding, Nature, p. 215, 556, 1967. Buffon, G. L. L. Histoire des Animaux, X, Citado por G. Canguilhem, El Conocimiento de la Vida,, Ed. Anagrama, p. 63, 1976. Jacob, F. The Logic of Life. A history of heredity, Traducción de B. E. Spillmann, Nueva York, Pantheon Books, p.279-280, 1982. Albarracín, T.A. La teoría celular, Madrid, Alianza editorial, S.A., 1983. Olby, R. The path to the Double Helix, Nueva York, Dover Publications, Inc., p. 145, 1994. Troland, L.T. Biological enigmas and the theory of enzyme action, American Naturalist, 51, p. 321-350, 1917. Schoenheimer, R., The Dynamic State of Body Constituents,Cambrigde Mass. 1942 Borsook, H. et al. Citado en P.N. Campbell, et al. Biosynthesis of Proteins, Nature,171, 4362, p. 997, 1953. Stent, G. S. That was the Molecualr Biology that was, Science, 160, p. 392, 1968. Bonner, D. citado por R. Olby, 1994, The path to the Double Helix, Nueva York, Dove Publication, Inc., p. 148, 1946. Campbell,P. N. Biosynthesis of Proteins, Nature, 171, 4362, p. 1000, 1953. Schrödinger, E. ¿Qué es la vida?, Tusquet editores, p. 94-98, 1944. Crick, F. H. C. On protein syntheis, Symp. Soc. Exp. Biol., 12, p. 138- 163, 1958. Lewin, B. Genes IV, Oxford University Press, p. 686, 1990. Crick, F.H.C. Central Dogma of Molecular Biology, Nature, 227 p. 561-563, 1970. Monod, J. From Enzymatic Adaptation to Allosteric Transitions, Science, 154, 475-483, 1966. Monod, J. et al. La Biosynthese des Enzymes (Adaptation Enzymatique, Advances in Enzymology, XIII, 67-119, 1952. Burnet, F.M. The Clonal Selection Theory of Acquired Immunity, Cambridge, Mass, 1959. Jacob, F. et al. Sur la Nature du Represseur Assurant Límmunité des Bactéries Lysogenes, Comptes Rendus Acad, Sci, 154, 4214-4216, 1962. Monod, J. et al. Allosteric Proteins and Cellular Control Systems, J. Molecular Biology, 6, 306-329, 1963. Grasse, P. P. Evolución de lo viviente, Ed. Hermann Blume, 1973. King, J.L. y T.H. Jukes. Non Darwinian Evolution, Science, 164, 788-798, 1969. Polanyi, M. Life irreductible structure, Science, 160, 1308-1313, 1968. Wiener, N. Cybernetics, or Control and Communication in the Animal and the Machine, Nueva York, John Wiley and Sons, 1948. Otsuka, J. y Nuzawa, Y., Self-Reproducing System can Behave as Mawell’s Demon: Theoretical Illustration Under Prebiotic Conditions, Journal Theoretical Biology, 194, p. 205-221, 1998. Patte, H. H. The Limitations of Formal Models of Measurement, Control and Cognition, Applied Mathematics and Computation, 56, 115, 1993. Matsuno, K. y Salthe, S. Global Idealism/Local Materialism, Biology and Philosophy, 10, 309-337, 1995. Chargaff, E. Nucleic acids as carriers of biological information, I.U.B. Symp. Ser., 1, 297-302, 1959. Commoner, B. Failure pf the Watson-Crick theory as a chemical axplanation of inheritance, Nature, 220, 334-340, 1968. Fleischamn, P. The chemical basis of inheritance, Nature, 225, 30-32, 1970. Eigen, M. Steps towards Life, Oxord University Press, p. 92, 1992. Shannon, C. E. A mathematical theory of communication, Bell System Technical Journal, 27, 379-423, 623-656, 1948. Cech, T. R. y Bass, B. L. Biological Catalysis by RNA. Annual Review Biochemistry. 55 599-629, 1982. Szostak, J. W. Evolution ex vivo, Nature, 362, 14 January, 1993. Kruger, K.P. et al. Self-splicing RNA: Autoexcision and Autocyclization of the Ribosomal RNA Intervening Sequence of Tetrahymena, Cell, 31, 147-157, 1982. Piccirilli, J. et al. Aminoacyl Esterase Activity of the Tetrahymena Ribozyme, Science, 256, 1420-1424, 1992. Eigen, M., Self-organization of matter and the evolution of biological macromolecules. Naturwissenschaften, 58 465-523, 1971. Weiner, A. Non Viral Retroposons: Genes, Pseudogenes and Transposable Elements Generated by Reserve Flow of Genetic Information, Annual Review Biochemistry, 55, 631-661, 1986. Seidel, H.M. et al. Exon as Microgenes?, Science, 257, 1489-1490, 1992. Breathnach, R. et al. Ovalbumin Gene is Split in Chicken DNA, Nature, 270, 314-319, 1977. Gilbert, W. Why Genes in Pieces?, Nature, 271, 501, 1978. Donelson,J. E. A comparison of trans-RNA splicing in Trypanosomes and Nematodes, Parasitology Today, 6, 10, 327-334, 1990. Gesteland, R.F. et al. Recoding: Reprogrammed Genetic Decoding, Science, 257, 1640-1641, 1992. Brenda, L. B. Splicing the New Edition, Nature, 352, 283-284, 1991. De Duve, C. The Second Genetic Code, Nature, 333, 117-118, 1988. Dover, G. Molecular Drive in Multigene Families: How Biological Novelties Arise, Spread and are Assimilated, Trends in Genetics, TIG, p. 159-164, 1986. Stern, D., et al. Mitochondrial and Chloroplast Genomes of Maize Have a 12Kilobase DNA Sequence in Common, Nature, 299, p. 698-702, 1982. Doolittle, R.F. et al. A Naturally Ocurring Gene Transfer from a Eukaryote to a Prokaryote, J. Molecular Evolution, 31, 383-388, 1990. Britten, R.J. et al. Repetitive and Non Repetitive DNA Sequences and Speculations on the Origin of Evolutionary Novelty, Quant. Rev. Biol.,46, 111-138, 1971. De Robertis, Homeobox Genes and the Vertebrate Body Plan, Scientific American, 263, 1, 46-52, 1990. Beardsley, T. Smart Genes, Scientific American, 265, 2, 86-95, 1991. Ellis, R.J. Molecular Chaperones, Annual Review Biochemistry, 60, p.321-347, 1991. Wills, P. R. Scrapie, ribosomal proteins and biological information, J. Theoretical Biology, 122, 157-178, 1986. Wills, P. R. Induced frameshifting machanism for the replication of an information-carrying scrapie prion, Microbiol, Pathogenesis, 6, 235- 250, 1989. Crick, F. H. C. Central Dogma of Molecular Biology, Nature, 227, 561- 563, 1970. Prusiner, S.B. Genetics of prions, Annual Review of Genetics, 31, 139-175, 1997. Caughey, B.; Kocisko, D. A.; Raymond, G. J. y Lansbury, P.T. Agregates of scrapie-associated prion protein induce cell-free conversion of protease-sensitive prion protein to the protease resistant state, Chem y Biol, 2, 807-817, 1995. Hoffmeyer, J. Sings of Meaning in the Universe, Bloomington, Indianapolis, Indiana University Press, p. 43-44, 1996. Kauffman, S. The Origins of Order. Self-Organization and Selection in Evolution, Nueva York, Oxford, Oxfor University Press, p. 287-356, 1993. Wächterh¨user, G., Before enzyme and templates: theory of surface metabolism. Microbiological Review 52, 452-484, 1988. Patte, H.H. Quantum Mechanics, Heredity and The Origin of Life, Journal of Theoretical Biology, 17, p. 416, 1967. Kidwell, M. Lateral Transfer in Natural Populations of Eukaryotes, Annual Review of Genetics, 27, 236-247, 1993. Wächterhäuser, G. Methodology and the origin of Life, Journal of Theoretical Biology, 187,4, 491, 1997. Schimmel, P. y Henderson, B., Possibles role of aminoacyl-RNA complex in noncoded peptide synthesis and origin of coded synthesis, Proc. Ntal. Acad. Sci. (USA) 91, p. 11283-11286, 1994. Dick, T. P. y W. W. A. Schamel, Molecular Evolution of t-RNA from Two Precursos Hairpin: Implications for the Origin of Protein Synthesis, Journal Molecular Evolution, 41, 1-9, 1995. Di Giulio, M. Was it an ancient gene codifying for a hairpin RNA that, by means of direct duplication, gave rise to the primitive tRNA molecule?, Journal Theoretical Biology, 177, 95-101, 1995. Di Giulio, M. On the Origin of the Genetic Code, Journal Theoretical Biology, 18, 573-581, 1997. Trifonov, E. N. The Multiples Codes of Nucleotides Sequences, Bulletin of Mathematical Biology, 51, 357-361, 1989. Mantegna, R.N.; S.V. Buldyrev; A.L. Goldberger; S. Havlin; C.K. Peng; M. Simons y H.E. Stanley, Linguistic Features of Noncoding DNA sequences, Physical Review Letters, 73, 23, 3169-3172, 1994. Eldredge, N. Unfinished Synthesis. Biological Hierarchies and Modern Evolutionary Thought, Oxford University Press, Nueva York, p. 175- 215, 1985. Fontana, W.; P.F. Bornberg-Bauer; E.G. Griesmacher; T. Hofacker; I. L. Tacker, M. Tarazona; E. D. Weinberger y P. Schuster, RNA folding and combinatory landscapes, Physical Review E, 47, 2083-2099, 1993. Schuster, P., Extended molecular evolutionary biology : artificial life bridging the gap between chemistry and biology. in Christopher Langton ed. Artificial Life. The MIT Press. Cambridge, Mass. p. 48-56, 1997. Perelson, A. S. y Oster, G. F. Theoretical Studies of Clonal Selection: Minimal Antibody Repertoire Size and Reliabitlity of Self-Nonself Discrimination, Journal Theoretical Biology, 81, 645, 1979. Segel, L. A. y Perelson, A. S., Computations in Shape Space: A New Approach to Immune Network Theory, En: A. S. Perelson Ed. Theoretical Immunology II, Santa Fe Institute Studies in The Sciences of Complexity, CA Addison Wesley, pp. 321-343, 1988. Scott, J. K. y Smith, G. P. Searching for peptide ligand with an epitome library, Science, 249, 386, 1990. Schwyzer, R. 100 Years Look-and-Key Concept: are Peptide Keys Shaped and Guided to their receptors by the Target Cell Membrane?, Biopolymers, 37, 5-16, 1995. Ansell, R. J.; Ramnström, O. y Mosbach, K. Towards Artificial Anti-bodies Prepared by Molecular Imprinting, Clinical Chemistry, 42, 9, 1506-1512, 1996. Leibniz, G. Monadology §10.§11.En: The Philosophical Works of Leibniz. 1908. Traducida por G.M. Duncan. New Haven: Tuttle, Morehouse y Taylor. Second Edition. 1714. Baldwin, J. M., A New Factor in evolution, American Naturalist, 30, p. 441-451, 1896. Frank Herbert, Dune, Berkeley Medallon Edition, 1977. Zalamea F., Ariel y Arisbe, Evolución y evaluación del concepto de América Latina en el siglo XX., Convenio Andres Bello. Bogotá. p. 51-90, 2000. Burkhardt, R.W. The Spirit of System, Lamarck and Evolutionary Biology, p. 145-146, 1977. Lamarck, J-B. Filosofía zoológica, Barcelona, Joan Senent, Editorial Mateu, 197180. Peirce,C.S. Collected Papers, Cambridge,M.A.,TheBelknapPressof harvard University Press, Traducido y editado por Armando Sercovich (1987) Obra Lógico Semiótica. Madrid, Taurus Ediciones, 1965. Darwin, C. The Origin of Species by Means of Natural Selection or Preservation of favored Races in the Struggle for Life (1859), Nueva York, N. Y., Collier Books, 196285. Piaget, J., Psicología y Epistemología. Barcelona. Ediciones Ariel, p. 89, 1971. Andrade, L.E., Natural selection and Maxwell demon ́s: a Semiotic approach to Evolutionary Biology. SEMIOTICA (special issue Biosemiotica) Ed. Hoffmeyer y Emmeche. Mouton de Gruyter, 127. No.1/4 p. 133-149, 1999. Whitehead, A.N. Nature and Life, Nueva York, Green Wood Press, 1968. Peirce, C.S. Semiotics and Significs: The correspondence Between Charles S. Peirce and Victoria Lady Welby, Editado por Charles S. Hardwick y JAmes Cook, Indiana University Press, Traducido y editado por Armando Sercovich (1987), Obra Lógico Semiótica, Madrid, Taurus Ediciones, p. 110-111; 112-115, 1977. Ohno, S. Evolution by Gene Duplication, Berlin, Springer Verlag Gould, S. J. y E. Vrba Exaptation a Missing Term in the Science of Form, Paleobiology, 8, 4-15, 1982. Goodwin, B. en M. W. Ho y P. T. Saunders Beyond Neo-Darwinism. An Epigenetic Approach to Evolution, Journal of Theorical Biology, 78, 573 y ss., 1979. Cadena, L. A. Ni holismo, ni reduccionismo: azar y necesidad, Memorias N◦1, Academia Colombiana de Ciencias Exactas, Físicas y Naturales, Santafé de Bogot ́a, 89-106, 1994. Leibniz, G. W. Monadología, Argentina, Hyspamerica Ediciones S. A., 46-48, 1983. Waddington, C. H., La Evolución de las Adaptaciones, Endeavour (Julio), p. 134-139, 1953. Levin, R. y Lewontin, The Dialectical Biologist, Boston M. A. Harvard University Press, p. 100, 1985. Hoffmeyer, J. y Emmeche, C, CodeDuality and The Semiotics of Nature. En: Anderson, M., Merrel, F. (Eds.), On Semiotics and Modeling, Mouton de Gruyter. Ed. New York, p. 117-166, 1991. Peirce C.S., Collected Papers of Charles Sanders Peirce, Vol 1-8, C. Hartshorne , P. Weiss y a. W. Burks (Ed.), Cambridge, MA: Harvard University Press, C.P. 1.409, 1.415, 1.416, 1931-1958. Bateson, G. Mind and Nature. A Necessary Unity, Nueva York, Bantam Books Inc, 1980. Darwin, Ch., The Origin of Species, London: John Murray, 6th Edition, p. 32, 1872. Jablonka, E. y M. J. Lamb, Epigenetic Inheritance and Evolution, The Lamarckian dimension, Oxford University Press, p. 230-233, 1995. Mc Clintock, B., The significance of Responses of the Genome to Challenge, Science, 226, p. 792-801, 1984. Depew, y Weber, B. Darwinism Evolving: Systems Dynamics and the Genealogy of Natural Selection, Cambridge MA. MIT Press, p. 244- 273, 1995. Kimura, M., The Neutralist Theory of Molecular Evolution, Cambridge Univesity Press, Cambridge, p. 104-113, 1983. Condit, R. The Evolution on Transposable Elements: Conditions for Establishment in Bacterial Population, Evolution, p 44, 347-359, 1990. Thaler, D. The Evolution of Genetic Intelligence, Science, 264, 224- 225, 1994. McDonald, J. F. The responsive Genome: Evidence and Evolutionary Implications, en Development as Evolutionary Process, Ed. R. A. Raff y E. C. Raff, Nueva York, Alan Liss, 1987. Pedigo, L. P. Entomolgy and Pest Management, Nueva York Mcmillan, 1989. Mayr,E. Population, Species and Evolution, Cambridge, MA, Harvard University Press, 1970. Taddei, M., Radman, M., Maynard, J., Smith, J., Toupance, B., Gouyon, P. H. y Godelle, B., Role of Mutator Alleles Inadaptive Evolution, Nature, 387, p. 700-704, .1997. Tang, M., Pham, P. Shen, X., Taylor, J. S., O’Donnell, M., Woodgate, R. Goodman, M. F., Roles of E. coli DNA Polymerases IV and V in LesionTargeted and untargeted SOS Mutagenesis, Nature, 404(6781): 1014-1018, 2000. Johnson, R., Prakash, S. y Prakash, L., The Human DINB 1 Gene encodes the DNA Polimerase Pol B, Proc, Ntl. Acad. Sci. (USA) 97(8), p. 3838-3843, 2000. Radman, M., Enzimes in Evolutionary Change, Nature, 401, p. 866- 869, 1999. Bateson, G. Somatic Adaptation, en Steps to an Ecology of Mind, San Francisco: Chandler, Nueva York, Ballantine paperback, 1992. Budavari, S. The Merck Index, Nueva Jersey, Rahway, Merck, 1989. Bork, P. Sperm-egg binding protein orproto-oncogene?, Science, 271, 1431-1432, 1996. Wistow, G. J., J. W. Mulders y W. W. De Jong, The Enzyme Lactate Dehydrogenase as a Structural Protein in Avian and Crocodilian Lenses, Nature, 326, 622-624, 1987. Buss, L. W. The Evolution of Individuality, Nueva Jersey, Princeton University Press, 21-22 y 87, 1987. Di Giulio, M., Reflections on theOrigin of the Genetic Code, J. Theoretical Biology, 191 p.191-196, 1998. Andrade, L. E., La relación “genotipo-fenotipo” y su posible extrapolación al estudio del comportamiento y la cultura humana, Ludus Vitalis, Revista de Filosofía de las Ciencias de la Vida, vol. VIII, N◦ 14, p. 189-202, 2000. Løvtrup, S., Epigenetics A treatise on Theoretical Biology, John Wiley y Sons. London. 1974 Ho, M. W. y Saunders, P. T., Beyond Neo Darwinism- An Epigenetic Approach to Evolution, Journal Theoretical Biology 78, 573-591, 1979. Goodwin, B., How the Leopard changed its spots. The Evolution of Complexity, A touchstone book, Published by Simon y Schuster. New York. 1994. Andrade, L. E., The Organization of Nature: Semiotic Agents as Intermedirios Between Digital and Analog Informational spaces, SEED Journal (Semiosis Evolution Energy Development), Vol 2 N◦ 1, p. 56- 84, 2002. http://www.library.utoronto.ca/see. Ascot, P., The Lamarckian Cradle of Scientific Ecology, acta Biotheoretica, 45, 185-193, 1997. Leff, H. y A. Rex, Maxwell’s Demon, Entropy, Information, Computing, Princeton University Press, 15-18, 1990. Grygoriu, P. Estrategias diferentes para aumentar la información durante la evolución de los organismos simples y complejos, Memorias del Seminario de Ciencia Teórica, Academia Colombiana de Ciencias Exactas, Físicas y Naturales, Bogotá, 47-72, 1996. Cohen, I. The Cognitive Principle challenges clonal selection, Immunology Today, 13, 11, 441-444, 1992. Bohm, D. Algunas observaciones sobre la noción del orden, en Conrad, H. Waddington, Las ideas básicas de la biología. Hacia una biología teórica, Madrid, Alianza Editorial, S. A., 1976. Robertson, D.L. y G.F. Joyce, The Catalytic Potencial of RNA, en Molecular Evolution on Rugged Landscapes: Proteins, RNA and the Immune System. Editado por A.S. Perelson y S.A Kauffman, Santa Fe Institute in the Science of Complexity, 1991. Horgan J., Complexity and perplexity, Scientific American, Junio de 1995. Bennet C.H., Logical depth and physical complexity, en R. de Herken The Universal Turing Machine: A Half-Century Survey, Oxford University Press, p. 229, 1988. Aristoteles, Metafísica, Estudio introductorio. Análisis de libros y revisión del texto por Francisco Larroyo, Editorial Porrúa, México, 1998. Aristoteles, Physics Book I and II, Translated with Introduction, Commentary, Note on Recent Work, and Revised Bibliography by William Charlton, Claredon Press, Oxford, 1992. Kant, I., The Critique of Judment, Translated by Jmes Creed Meredith Litt. D. (TCD), Oxford University Press, Amen House, London EC4 (1928), KU §16(77), 407 pp: 62, 1952. Reprinted 1964. Thompson, DÁ rcy, On Growth and Form, Ed. J. T. Bonner, Cambridge University Press, cambridge, 1961. Bateson, G., Mind and Nature.A necesary Unity, Bantam Books, 1979. Peirce C.S., Collected Papers of Charles Sanders Peirce, Vol 8, Ed. by Charles Hartshome , Paul Weiss y A. W. Burks (Ed.), Cambridge, MA: Harvard University Press, C.P. 7.528, 1931-1958. Peirce C.S., Collected Papers, The Belknap Press of Harvard University Press, Cambridge, MA, translated and Edited by Armando Sercovich, Obra lógico semiótica, Taurus Ediciones, Madrid, 1987. Taborsky, E., The Internal and External Semiosic Properties of Reality, SEED Journal (Semiosis Energy Evolution Development), 1 N◦1, 2001. Wächterhäuser, G., Methodology and The Origin of Life, Journal of Theoretical Biology, 187(4), p. 491, 1997. Vinogradov, A. E., Buffering: A Passive Homeostasis Role for Redudndant DNA, Journal Theoretical Biology, 193, p. 197-199, 1998. Dretske, F. I., Conocimiento e información, Barcelona. Salvat Editores, 1987. Schneider, E.D. y Kay, J.J., Complexity and Thermodynamics: Towards a New Ecology, Futures, 24(6), p. 626-647, 1994. Salthe, S. N., Energy Development and Semiosis, En: Edwma Taborsky (Ed.), Semiosis Evolution Energy Towards a Reconceptualization of the sign, Shaker verlag Aachen, Alemania, p. 245-261, 1999. Van Valen, L., A New Evolutionary Law, Evolutionary Theory, 1, p. 1-24, 1973 Lamarck J.B. 1803, Zoological Philosophy, Nueva York, Hafner, p. 410. Traducido por H. Elliot y reimpresión, 1963. Fox S. W., Proteinoid Experiments and evolutionary Theory, In Beyond Neo-Darwinism. Ed. Mae-Wan Ho y Peter T. Saunders. Academic Press, Inc, p. 15-60, 1984. Eldredge, N., Unfinished Synthesis. Biological Hierarchies and Modern Evolutionary Thought. New York, Oxford. Oxford University Press. 1985. Hull D.L., A Matter of Individuality. Philosophy of Science, 45, p. 335-360, 1978. Hesse, M., Models and Analogies in Science, Notre Dame, University of Notre Dame Press, 1966. Barnes, B., Scientific Knowledge and Sociological Theory, London: Routledge, 1974. Ricoeur, P., The Rule of Metaphor, Toronto, University of Toronto Press, 1977. Cullmann, G, y Labouygues, J. M., Le Code Génétique Instantané Absolutment Optimal, Compte Rendue 301, Serie III, 157-160, 1985. |
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Atribución-NoComercial-SinDerivadas 4.0 InternacionalUniversidad Nacional de Colombia, 2003http://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Andrade Pérez, Luis Eugenioa1e8a29fdbe9ce1fa5dd0ad463af55056002024-02-08T04:50:58Z2024-02-08T04:50:58Z2003https://repositorio.unal.edu.co/handle/unal/85664ilustracionesEl libro esta organizado de acuerdo a un esquema triádico inspirado en Charles S. Peirce, manteniendo un eje temático central que se va tejiendo desde diferentes perspectivas. En el capítulo primero, sobre la localización del observador, se abordan los temas de la energía, el azar, la potencialidad. En el capítulo segundo, entre la actividad catalítica y la codificación genética, se plantea el problema de la información a escala molecular. Por último, el estudio del carácter semiótico de los demonios de Maxwell o de las unidades de acción y experiencia ilustra como se da la capacidad de evolucionar. En esta segunda edición se incluyen nuevos textos como el que discute la relación entre el neo-darwinismo y la entropía de Boltzmann. Además se profundiza en el problema del origen y carácter de las variaciones evolutivas respecto a si son aleatorias o dirigidas. En este mismo sentido se presenta una ampliación sobre los conceptos de forma, causa formal, información analógica e información digital. (texto tomado de la fuente)Introducción -- 0.1. Sobre la localización del observador en las ciencias de la naturaleza: ¿Interno? ó ¿Externo? -- 0.2. Persistencia del vitalismo -- 1. Un recorrido desde la observación externa a la interna en termodinámica y teoría de la información -- 1. Aproximaciones externalistas -- 1.1.1. Entropía termodinámica -- 1.1.2. Entropía de Boltzmann -- 1.1.3. El equilibrio como referencial propio de un observador externo -- 1.1.4. Neodarwinismo y entropía de Boltzmann -- 1.1.5. Equilibrio, gradualismo y progreso evolutivo -- 1.1.6. Información y entropía -- 1.1.7. Información y comunicación -- 1.2. Aproximaciones internalistas -- 1.2.1. Los demonios de Maxwell -- 1.3. El desequilibrio como referencial para el estudio de los sistemas físicos y biológicos -- 1.3.1. La aproximación de Ilya Prigogine -- 1.4. Evolución como entropía: la contribución de Wiley y Brooks. -- 1.5. Especiación y cambios de entropía -- 1.6. Autopoiesis -- 1.7. Teoría algorítmica de la información -- 1.8. Entropía Física: La aproximación internalista de Zurek -- 2. Moléculas e información --2.1. La biología molecular: una empresa multidisciplinaria -- 2.2. Del “molde interior ”al“ dogma central” -- 2.2.1. El paradigma de la “fluidez de la vida” y la “adaptación enzimática” -- 2.2.2. Paradigma informático -- 2.2.3. El dogma central -- 2.2.4. Monod y la Consolidación del Dogma Central -- 2.2.5. Reacciones contra la propuesta de Monod -- 2.2.6. Las enzimas como demonios de Maxwell -- 2.2.7. Críticas al dogma central -- 2.2.8. Dogma central y códigos -- 2.2.9. El sistema de comunicación DNA-mRNA-proteínas -- 2.3. De la información digital a la analógica y viceversa -- 2.3.1. El DNA: modelo de información digital .-- 2.3.2. Espacios de secuencias -- 2.3.3. Estructura de los lenguajes y semántica molecular -- 2.4. Más allá del dogma central -- 2.5. Codificación analógica y actividad enzimática -- 2.6. Codificación digital y reconocimiento directo de patrones -- 2.7. Ruptura del paradigma: una secuencia/ una estructura -- 2.8. Estructura-Función -- 3. Semiótica de la evolución biológica -- 3.1. Relaciones triádicas de Peirce y el pensamiento evolutivo -- 3.2. Selección y demonios de Maxwell -- 3.3. Estructuras y registros de información -- 3.4. La interacción sistema entorno -- 3.5. La medición como fuente de determinación y perturbación .-- 3.6. El problema de la medición -- 3.7. Desarrollo de las categorías peircianas -- 3.7.1. Potencialidad y actualidad en el establecimiento de las conexiones -- 3.8. La adaptación biológica -- 3.9. Origen de las variaciones evolutivas -- 3.10. La variaciones evolutivas son ¿dirigidas ó aleatorias? .-- 3.11. Variaciones dirigidas lejos del equilibrio -- 3.12.La propuesta neolamarckiana -- 3.13. La barrera de Weismann -- 3.14. Hacia una teoría de los Fenotipos -- 3.15. La ontogenia de un observador interno -- 3.16. Máquina de Szilard y borrado de información -- 3.17. Mecanicismo y evolucionismo, ¿incompatibles? -- 3.18.Hacia una semiótica de la naturaleza -- 3.19. Limitaciones de la teoría de la información -- 3.20. Complejidad -- 3.20.1. Profundidad lógica -- 3.21.La selección como potencia activa -- 3.22. El estatuto epistemológico de la forma y la causa formal -- 3.23. De la epistemología a la ontología -- 3.24. El Mapa de las relaciones entre los Espacios de Información Digital y Analógica -- 3.25.Espacio de Información Digital(EID) -- 3.26. Espacio de Información Analógica (EIA) -- 3.27. Espacio de las Acciones Asociadas a Trabajo Físico -- 3.28. Semiótica de series aleatorias de símbolos -- 3.29. Selección Natural y causalidad aristotélica -- 4. Epílogo -- 4.1. Organización jerárquica -- 4.2. Transdisciplinariedad y conjura del vitalismo -- Apéndices -- A. Teoría de la codificación -- A.1.Códigos -- A.2. Propiedades de los códigos instantáneos -- A.3. Códigos detectores y correctores de error -- A.4. Teorema de Shannon: “Capacidad del canal” -- A.5. La entropía condicional como medida del ruido genético -- B. Entropía Física de Zurek -- B.1. Relación entre la entropía algorítmica y la estadística -- B.2. Máquina de Szilard y el costo del borrado -- B.3. Compresibilidad de la información -- B.4. El papel de las mediciones : de la ignorancia al desorden -- BibliografíaSegunda edición265 páginasapplication/pdfspaUniversidad Nacional de Colombia. Facultad de Ciencias, Departamento de BiologíaBogotá570 - BiologíaEvolución (Biología)Filosofía de la BiologíaPropiedades biológicasTeoría de la información en biologíaLos demonios de Darwin : Semiótica y termodinámica de la evolución biológicaLibroinfo:eu-repo/semantics/bookinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/resource_type/c_2f33http://purl.org/coar/version/c_970fb48d4fbd8a85TextUlanowicz, R.E. Aristotelian casualities in ecosystem development. 57, Oikos, p. 42-48, 1990.Monod, J. El azar y la necesidad, Barcelona, Ed. Orbis, S.A., p. 13, 1970.Kant, I. Critique of Judgment, traducido por J.H. Bernard, Nueva York, Hafner Press, p. 373/219-220, 1951.Kolb, D. Kant, Teleology and Evolution, Synthese, 91, p. 9-28, 1992.Stewart I., ¿Juega Dios a los dados?, Grijalbo Mondadori, Barcelona, p. 16. 1997.Ito, K. y P. Y. Gunjii. Self-organization towards criticality in the game of life, BioSystems, 26, p. 135-138, 1992Schrödinger, E., Ciencia y humanismo, Barcelona, Tusquet Ed., primera edición, p. 20-21, 1951.Bohm, D. Wholeness and the Implicate Order, Londres y Nueva York, Ark Papers, 1980.Judson, H. F. The Eigth Day of Creation, Nueva York, Knofp, 1978.Bohr, N. Light and Life, Nature, 131, 421-423, 1933.Andrade, L. E., Lavoisier y química del S. XVIII, Revista de la Academia Colombiana de Ciencias Exactas, Físicas y Naturales, XVII, 67, p. 786, 1990.Prigogine, I. e I. Stengers. Order out of Chaos, Toronto, Nueva York, Bantam Books, p. 79-86, 1984.Venel, G. F. Encyclopédie ou Dictionnaire raisonné des sciences, des arts et de métiers par una societé des gens de lettres,Chymie, D. Di- derot et J. dÁlembert, París, p. 413, 1753.Césarman E., Hombre y entropía, Ed. Pax, México, S. A., p. 53, 1974.Senent, J. Presentación de la filosofía zoológica de Lamarck, Barcelona, Editorial Mateu, p. 13-14, 1971.Canguilhem, G. El conocimiento de la vida, Barcelona, Editorial Anagrama, p. 95-115/80, 1976.Bowler, P. J. El Eclipse del Darwinismo, Barcelona, Labor Universitaria, p.89, 1985.Lewontin, R, y R. Levins The Dialectical Biologist, Cambridge, MA. Harvard University Press, 176-177, 1985.Waddington, C. H. Hacia una biología teórica, Madrid, Alianza Editorial, S.A., p. 30-34, 1976.Steele, J. Somatic Selection and Adaptive Evolution, On the Inheritance of acquired Characters, Chicago, IL. The University of Chicago Press, 1979.Cairns, J., J. Overbaug y S. Miller The Origin of Mutants, Nature, 335, p. 142-145, 1988.Wesson, R. Beyond Natural Selection, Canbridge, Massa chusetts, The MIT Press, p. 222-226, 1991.Waddington, C.H. La evolución de las adaptaciones, Endeavour, p. 134-139, julio 1953.Bateson, G. Steps to an Ecologyof Mind, Northvale, Nueva Jersey, Londres, Jason Aronson Inc., p.354-355, 1987.Andrade, L. E. Holismo y reduccionismo en el desarrollo de la biología molecular, Memorias Seminario Nacional, Academia Colombiana de Ciencias Exactas, Físicas y Naturales, p. 17-40, 1994.Andrade, L. E. Analogías entre las teorías de la materia, de la evolu- ción biológica y la sociedad, Memorias Seminario de ciencia teórica. Academia Colombiana de Ciencias Exactas, Físicas y Naturales, Co- lección memorias, 8, p. 104-106, 1996.Morowitz, H. J. Beginnings of Cellular Life: Metabolism Recapitulates Biogenesis, Yale University Press, p. 69, 1992.Cadena,L.A. Selección y neutralidad. ¿Antagónicas?, Innovación y ciencia, IV, 1, p. 26-31, 1995.Penrose,R. The Emperor’s New Mind, Oxford University Press, p. 314, 1989.Salthe, S. Development and Evolution. Complexity and Change in Biology, A Bradford Book, Cambridge, Massachusetts, Londres, Ingla- terra, The MIT Press, p. 9 y 45, 1993.Fisher, The correlation between relatives on the supposition of Mendelian inheritance,Transactions of the Royal Society of Edinburgh 52, p. 399-433. 1918.Fisher, R. A. On the dominance ratio. Proc. Roy. Soc. Edinburgh. 42, p. 321-341, 1922.Fisher, R.A., The Genetical Theory of Natural Selection, Claredon Press, Oxford, England. Second revised edition (1958), New York Dover PublicationsFisher, 1930.Fisher, En: Depew, D.J. y B. Weber. (1996) Darwinism Evolving: System Dynamics and the Genealogy of Natural Selection. The MIT Press. Massachussets Institute of Technology. Cambridge, Mass 02142, 1932.Margulis, L. y D. Sagan, What Is Life?, Simon y Schuster, p. 44, 1995.Gould, S.J. citado en John Brockman, The Third Culture, Simon y Schuster, p. 52, 1995.Dawkins, R., citado en John Brockman, The Third Culture, Simon y schudter, p. 84, 1995.Maynard Smith,J. y E. Szathmáry, The Major Transitions in Evolu- tion, W. H. Oxford University Press, p. 4-5, 2001.Dobzhansky, T. Studies in the Philosophy of Biology:Reduction and Related Problems, Francisco J. Ayala y Theodosius Dobzhansky, eds., University of California Press, p. 311, 1974.Wilson, E. O. The Diversity of Life, Harvard University Press, p. 187, 1992.Eigen, M. y R. Winkler, Laws of the game, Nueva York. Alfred A. Knopf, p. 146-148, 1981.Heimann, P. M. Molecular Forces, Statical Representation and Maxwell Demon, Studies on History and Philosophy of Science, 1, p. 189-211, 1970.Maxwell, 1890. En: Depew, D.J. y B. Weber. (1996) Darwinism Evolving: System Dynamics and the Genealogy of Natural Selection. The MIT Press. Massachussets Institute of Technology. Cambridge, Mass 02142, 1890.Brillouin, L. Maxwell’s demon cannot operate: Information and Entropy I, Journal Applied Physics, 22,334-337, 1951.Bennet, C. Demons, Engines and the Second Law, Scientific American, 255, 11, 108-116, 1987Daub, E.E. Maxwell’s demon, Studies History and Philosophy of Science, 1, 213-227, 1970Maxwell, Carta de Maxwell a Galton. Febrero 26 de 1879, Citado en “Maxwell’s papers at University College”, London (1986), 1879.Frautschi, S. Entropy in an expanding universe, Science, 217, p. 593- 599, 1982.Brooks, D. R. y E. O. Wiley, Evolution as Entropy, The university of chicago Press, 2a edición, p. 37-41, 1988.Landsberg, P. T. Is equlibrium always an entropy maximum?, J. Statical Physics, 35, p. 159-169, 1984.Layzer, D. The arrow of time, Scientific American, 233, p. 56-69, 1988.Wicken, J. A. Thermodynamic Theory of Evolution, Journal Theoretical Biology, 87, p. 9-23, 1980.Wiley, E.O y D.R. Brooks, Victims of history, A non equilibrium approach to evolution, Systematic Zoologist, 3, 1, p. 1-24, 1982.Maturana, H. y F. Valera, The Tree of Knowlwdge, Boston y Londres, Shambala, p. 75-ss, 1992.Rield, R. Biología del conocimiento. Los fundamentos filogenéticos de la razón, Calabria, España, Editorial Labor, S.A., 1983.Kolmogorov, A. N. Logical basis for information theory and probability theory, IEEE Transactions on Information Theory, 14, p. 662-664, 1968.Chaitin, G. J. On the length of programs for computing finite binary sequences: Statical considerations, Journal of the Association for Computing Machinery, 16, p. 145-159, 1969.Goel, N. S. y R. Thompson, Organization of biological Systems, Inter- national Review of Cytology, 103, p. 60-88, 1986.Chaitin, G. J. A theory of program size formally identical to information Theory, Journal of the Association for Computing Machinery, 22, p. 329-340, 1975.Zurek, W. H. Algotithmic randomness and physical entropy, Physical Review A., 40, 8, p. 4731-4751, 1989.Zurek, W. H. Algorithmic Information Content, Church-Turing The- sis, Physical Entropy, and Maxwell’s Demon, Complexity, Entropy, and the Physics of information, SFI Studies in the Science of Comple- xity, Ed. W.,H. Zurek, Addison-Weslwy, VIII, p. 73-89, 1990.Olby, R. An early reference of genetic coding, Nature, p. 215, 556, 1967.Buffon, G. L. L. Histoire des Animaux, X, Citado por G. Canguilhem, El Conocimiento de la Vida,, Ed. Anagrama, p. 63, 1976.Jacob, F. The Logic of Life. A history of heredity, Traducción de B. E. Spillmann, Nueva York, Pantheon Books, p.279-280, 1982.Albarracín, T.A. La teoría celular, Madrid, Alianza editorial, S.A., 1983.Olby, R. The path to the Double Helix, Nueva York, Dover Publications, Inc., p. 145, 1994.Troland, L.T. Biological enigmas and the theory of enzyme action, American Naturalist, 51, p. 321-350, 1917.Schoenheimer, R., The Dynamic State of Body Constituents,Cambrigde Mass. 1942Borsook, H. et al. Citado en P.N. Campbell, et al. Biosynthesis of Proteins, Nature,171, 4362, p. 997, 1953.Stent, G. S. That was the Molecualr Biology that was, Science, 160, p. 392, 1968.Bonner, D. citado por R. Olby, 1994, The path to the Double Helix, Nueva York, Dove Publication, Inc., p. 148, 1946.Campbell,P. N. Biosynthesis of Proteins, Nature, 171, 4362, p. 1000, 1953.Schrödinger, E. ¿Qué es la vida?, Tusquet editores, p. 94-98, 1944.Crick, F. H. C. On protein syntheis, Symp. Soc. Exp. Biol., 12, p. 138- 163, 1958.Lewin, B. Genes IV, Oxford University Press, p. 686, 1990.Crick, F.H.C. Central Dogma of Molecular Biology, Nature, 227 p. 561-563, 1970.Monod, J. From Enzymatic Adaptation to Allosteric Transitions, Science, 154, 475-483, 1966.Monod, J. et al. La Biosynthese des Enzymes (Adaptation Enzymatique, Advances in Enzymology, XIII, 67-119, 1952.Burnet, F.M. The Clonal Selection Theory of Acquired Immunity, Cambridge, Mass, 1959.Jacob, F. et al. Sur la Nature du Represseur Assurant Límmunité des Bactéries Lysogenes, Comptes Rendus Acad, Sci, 154, 4214-4216, 1962.Monod, J. et al. Allosteric Proteins and Cellular Control Systems, J. Molecular Biology, 6, 306-329, 1963.Grasse, P. P. Evolución de lo viviente, Ed. Hermann Blume, 1973.King, J.L. y T.H. Jukes. Non Darwinian Evolution, Science, 164, 788-798, 1969.Polanyi, M. Life irreductible structure, Science, 160, 1308-1313, 1968.Wiener, N. Cybernetics, or Control and Communication in the Animal and the Machine, Nueva York, John Wiley and Sons, 1948.Otsuka, J. y Nuzawa, Y., Self-Reproducing System can Behave as Mawell’s Demon: Theoretical Illustration Under Prebiotic Conditions, Journal Theoretical Biology, 194, p. 205-221, 1998.Patte, H. H. The Limitations of Formal Models of Measurement, Control and Cognition, Applied Mathematics and Computation, 56, 115, 1993.Matsuno, K. y Salthe, S. Global Idealism/Local Materialism, Biology and Philosophy, 10, 309-337, 1995.Chargaff, E. Nucleic acids as carriers of biological information, I.U.B. Symp. Ser., 1, 297-302, 1959.Commoner, B. Failure pf the Watson-Crick theory as a chemical axplanation of inheritance, Nature, 220, 334-340, 1968.Fleischamn, P. The chemical basis of inheritance, Nature, 225, 30-32, 1970.Eigen, M. Steps towards Life, Oxord University Press, p. 92, 1992.Shannon, C. E. A mathematical theory of communication, Bell System Technical Journal, 27, 379-423, 623-656, 1948.Cech, T. R. y Bass, B. L. Biological Catalysis by RNA. Annual Review Biochemistry. 55 599-629, 1982.Szostak, J. W. Evolution ex vivo, Nature, 362, 14 January, 1993.Kruger, K.P. et al. Self-splicing RNA: Autoexcision and Autocyclization of the Ribosomal RNA Intervening Sequence of Tetrahymena, Cell, 31, 147-157, 1982.Piccirilli, J. et al. Aminoacyl Esterase Activity of the Tetrahymena Ribozyme, Science, 256, 1420-1424, 1992.Eigen, M., Self-organization of matter and the evolution of biological macromolecules. Naturwissenschaften, 58 465-523, 1971.Weiner, A. Non Viral Retroposons: Genes, Pseudogenes and Transposable Elements Generated by Reserve Flow of Genetic Information, Annual Review Biochemistry, 55, 631-661, 1986.Seidel, H.M. et al. Exon as Microgenes?, Science, 257, 1489-1490, 1992.Breathnach, R. et al. Ovalbumin Gene is Split in Chicken DNA, Nature, 270, 314-319, 1977.Gilbert, W. Why Genes in Pieces?, Nature, 271, 501, 1978.Donelson,J. E. A comparison of trans-RNA splicing in Trypanosomes and Nematodes, Parasitology Today, 6, 10, 327-334, 1990.Gesteland, R.F. et al. Recoding: Reprogrammed Genetic Decoding, Science, 257, 1640-1641, 1992.Brenda, L. B. Splicing the New Edition, Nature, 352, 283-284, 1991.De Duve, C. The Second Genetic Code, Nature, 333, 117-118, 1988.Dover, G. Molecular Drive in Multigene Families: How Biological Novelties Arise, Spread and are Assimilated, Trends in Genetics, TIG, p. 159-164, 1986.Stern, D., et al. Mitochondrial and Chloroplast Genomes of Maize Have a 12Kilobase DNA Sequence in Common, Nature, 299, p. 698-702, 1982.Doolittle, R.F. et al. A Naturally Ocurring Gene Transfer from a Eukaryote to a Prokaryote, J. Molecular Evolution, 31, 383-388, 1990.Britten, R.J. et al. Repetitive and Non Repetitive DNA Sequences and Speculations on the Origin of Evolutionary Novelty, Quant. Rev. Biol.,46, 111-138, 1971.De Robertis, Homeobox Genes and the Vertebrate Body Plan, Scientific American, 263, 1, 46-52, 1990.Beardsley, T. Smart Genes, Scientific American, 265, 2, 86-95, 1991.Ellis, R.J. Molecular Chaperones, Annual Review Biochemistry, 60, p.321-347, 1991.Wills, P. R. Scrapie, ribosomal proteins and biological information, J. Theoretical Biology, 122, 157-178, 1986.Wills, P. R. Induced frameshifting machanism for the replication of an information-carrying scrapie prion, Microbiol, Pathogenesis, 6, 235- 250, 1989.Crick, F. H. C. Central Dogma of Molecular Biology, Nature, 227, 561- 563, 1970.Prusiner, S.B. Genetics of prions, Annual Review of Genetics, 31, 139-175, 1997.Caughey, B.; Kocisko, D. A.; Raymond, G. J. y Lansbury, P.T. Agregates of scrapie-associated prion protein induce cell-free conversion of protease-sensitive prion protein to the protease resistant state, Chem y Biol, 2, 807-817, 1995.Hoffmeyer, J. Sings of Meaning in the Universe, Bloomington, Indianapolis, Indiana University Press, p. 43-44, 1996.Kauffman, S. The Origins of Order. Self-Organization and Selection in Evolution, Nueva York, Oxford, Oxfor University Press, p. 287-356, 1993.Wächterh¨user, G., Before enzyme and templates: theory of surface metabolism. Microbiological Review 52, 452-484, 1988.Patte, H.H. Quantum Mechanics, Heredity and The Origin of Life, Journal of Theoretical Biology, 17, p. 416, 1967.Kidwell, M. Lateral Transfer in Natural Populations of Eukaryotes, Annual Review of Genetics, 27, 236-247, 1993.Wächterhäuser, G. Methodology and the origin of Life, Journal of Theoretical Biology, 187,4, 491, 1997.Schimmel, P. y Henderson, B., Possibles role of aminoacyl-RNA complex in noncoded peptide synthesis and origin of coded synthesis, Proc. Ntal. Acad. Sci. (USA) 91, p. 11283-11286, 1994.Dick, T. P. y W. W. A. Schamel, Molecular Evolution of t-RNA from Two Precursos Hairpin: Implications for the Origin of Protein Synthesis, Journal Molecular Evolution, 41, 1-9, 1995.Di Giulio, M. Was it an ancient gene codifying for a hairpin RNA that, by means of direct duplication, gave rise to the primitive tRNA molecule?, Journal Theoretical Biology, 177, 95-101, 1995.Di Giulio, M. On the Origin of the Genetic Code, Journal Theoretical Biology, 18, 573-581, 1997.Trifonov, E. N. The Multiples Codes of Nucleotides Sequences, Bulletin of Mathematical Biology, 51, 357-361, 1989.Mantegna, R.N.; S.V. Buldyrev; A.L. Goldberger; S. Havlin; C.K. Peng; M. Simons y H.E. Stanley, Linguistic Features of Noncoding DNA sequences, Physical Review Letters, 73, 23, 3169-3172, 1994.Eldredge, N. Unfinished Synthesis. Biological Hierarchies and Modern Evolutionary Thought, Oxford University Press, Nueva York, p. 175- 215, 1985.Fontana, W.; P.F. Bornberg-Bauer; E.G. Griesmacher; T. Hofacker; I. L. Tacker, M. Tarazona; E. D. Weinberger y P. Schuster, RNA folding and combinatory landscapes, Physical Review E, 47, 2083-2099, 1993.Schuster, P., Extended molecular evolutionary biology : artificial life bridging the gap between chemistry and biology. in Christopher Langton ed. Artificial Life. The MIT Press. Cambridge, Mass. p. 48-56, 1997.Perelson, A. S. y Oster, G. F. Theoretical Studies of Clonal Selection: Minimal Antibody Repertoire Size and Reliabitlity of Self-Nonself Discrimination, Journal Theoretical Biology, 81, 645, 1979.Segel, L. A. y Perelson, A. S., Computations in Shape Space: A New Approach to Immune Network Theory, En: A. S. Perelson Ed. Theoretical Immunology II, Santa Fe Institute Studies in The Sciences of Complexity, CA Addison Wesley, pp. 321-343, 1988.Scott, J. K. y Smith, G. P. Searching for peptide ligand with an epitome library, Science, 249, 386, 1990.Schwyzer, R. 100 Years Look-and-Key Concept: are Peptide Keys Shaped and Guided to their receptors by the Target Cell Membrane?, Biopolymers, 37, 5-16, 1995.Ansell, R. J.; Ramnström, O. y Mosbach, K. Towards Artificial Anti-bodies Prepared by Molecular Imprinting, Clinical Chemistry, 42, 9, 1506-1512, 1996.Leibniz, G. Monadology §10.§11.En: The Philosophical Works of Leibniz. 1908. Traducida por G.M. Duncan. New Haven: Tuttle, Morehouse y Taylor. Second Edition. 1714.Baldwin, J. M., A New Factor in evolution, American Naturalist, 30, p. 441-451, 1896.Frank Herbert, Dune, Berkeley Medallon Edition, 1977.Zalamea F., Ariel y Arisbe, Evolución y evaluación del concepto de América Latina en el siglo XX., Convenio Andres Bello. Bogotá. p. 51-90, 2000.Burkhardt, R.W. The Spirit of System, Lamarck and Evolutionary Biology, p. 145-146, 1977.Lamarck, J-B. Filosofía zoológica, Barcelona, Joan Senent, Editorial Mateu, 197180.Peirce,C.S. Collected Papers, Cambridge,M.A.,TheBelknapPressof harvard University Press, Traducido y editado por Armando Sercovich (1987) Obra Lógico Semiótica. Madrid, Taurus Ediciones, 1965.Darwin, C. The Origin of Species by Means of Natural Selection or Preservation of favored Races in the Struggle for Life (1859), Nueva York, N. Y., Collier Books, 196285.Piaget, J., Psicología y Epistemología. Barcelona. Ediciones Ariel, p. 89, 1971.Andrade, L.E., Natural selection and Maxwell demon ́s: a Semiotic approach to Evolutionary Biology. SEMIOTICA (special issue Biosemiotica) Ed. Hoffmeyer y Emmeche. Mouton de Gruyter, 127. No.1/4 p. 133-149, 1999.Whitehead, A.N. Nature and Life, Nueva York, Green Wood Press, 1968.Peirce, C.S. Semiotics and Significs: The correspondence Between Charles S. Peirce and Victoria Lady Welby, Editado por Charles S. Hardwick y JAmes Cook, Indiana University Press, Traducido y editado por Armando Sercovich (1987), Obra Lógico Semiótica, Madrid, Taurus Ediciones, p. 110-111; 112-115, 1977.Ohno, S. Evolution by Gene Duplication, Berlin, Springer Verlag Gould, S. J. y E. Vrba Exaptation a Missing Term in the Science of Form, Paleobiology, 8, 4-15, 1982.Goodwin, B. en M. W. Ho y P. T. Saunders Beyond Neo-Darwinism. An Epigenetic Approach to Evolution, Journal of Theorical Biology, 78, 573 y ss., 1979.Cadena, L. A. Ni holismo, ni reduccionismo: azar y necesidad, Memorias N◦1, Academia Colombiana de Ciencias Exactas, Físicas y Naturales, Santafé de Bogot ́a, 89-106, 1994.Leibniz, G. W. Monadología, Argentina, Hyspamerica Ediciones S. A., 46-48, 1983.Waddington, C. H., La Evolución de las Adaptaciones, Endeavour (Julio), p. 134-139, 1953.Levin, R. y Lewontin, The Dialectical Biologist, Boston M. A. Harvard University Press, p. 100, 1985.Hoffmeyer, J. y Emmeche, C, CodeDuality and The Semiotics of Nature. En: Anderson, M., Merrel, F. (Eds.), On Semiotics and Modeling, Mouton de Gruyter. Ed. New York, p. 117-166, 1991.Peirce C.S., Collected Papers of Charles Sanders Peirce, Vol 1-8, C. Hartshorne , P. Weiss y a. W. Burks (Ed.), Cambridge, MA: Harvard University Press, C.P. 1.409, 1.415, 1.416, 1931-1958.Bateson, G. Mind and Nature. A Necessary Unity, Nueva York, Bantam Books Inc, 1980.Darwin, Ch., The Origin of Species, London: John Murray, 6th Edition, p. 32, 1872.Jablonka, E. y M. J. Lamb, Epigenetic Inheritance and Evolution, The Lamarckian dimension, Oxford University Press, p. 230-233, 1995.Mc Clintock, B., The significance of Responses of the Genome to Challenge, Science, 226, p. 792-801, 1984.Depew, y Weber, B. Darwinism Evolving: Systems Dynamics and the Genealogy of Natural Selection, Cambridge MA. MIT Press, p. 244- 273, 1995.Kimura, M., The Neutralist Theory of Molecular Evolution, Cambridge Univesity Press, Cambridge, p. 104-113, 1983.Condit, R. The Evolution on Transposable Elements: Conditions for Establishment in Bacterial Population, Evolution, p 44, 347-359, 1990.Thaler, D. The Evolution of Genetic Intelligence, Science, 264, 224- 225, 1994.McDonald, J. F. The responsive Genome: Evidence and Evolutionary Implications, en Development as Evolutionary Process, Ed. R. A. Raff y E. C. Raff, Nueva York, Alan Liss, 1987.Pedigo, L. P. Entomolgy and Pest Management, Nueva York Mcmillan, 1989.Mayr,E. Population, Species and Evolution, Cambridge, MA, Harvard University Press, 1970.Taddei, M., Radman, M., Maynard, J., Smith, J., Toupance, B., Gouyon, P. H. y Godelle, B., Role of Mutator Alleles Inadaptive Evolution, Nature, 387, p. 700-704, .1997.Tang, M., Pham, P. Shen, X., Taylor, J. S., O’Donnell, M., Woodgate, R. Goodman, M. F., Roles of E. coli DNA Polymerases IV and V in LesionTargeted and untargeted SOS Mutagenesis, Nature, 404(6781): 1014-1018, 2000.Johnson, R., Prakash, S. y Prakash, L., The Human DINB 1 Gene encodes the DNA Polimerase Pol B, Proc, Ntl. Acad. Sci. (USA) 97(8), p. 3838-3843, 2000.Radman, M., Enzimes in Evolutionary Change, Nature, 401, p. 866- 869, 1999.Bateson, G. Somatic Adaptation, en Steps to an Ecology of Mind, San Francisco: Chandler, Nueva York, Ballantine paperback, 1992.Budavari, S. The Merck Index, Nueva Jersey, Rahway, Merck, 1989. Bork, P. Sperm-egg binding protein orproto-oncogene?, Science, 271, 1431-1432, 1996.Wistow, G. J., J. W. Mulders y W. W. De Jong, The Enzyme Lactate Dehydrogenase as a Structural Protein in Avian and Crocodilian Lenses, Nature, 326, 622-624, 1987.Buss, L. W. The Evolution of Individuality, Nueva Jersey, Princeton University Press, 21-22 y 87, 1987.Di Giulio, M., Reflections on theOrigin of the Genetic Code, J. Theoretical Biology, 191 p.191-196, 1998.Andrade, L. E., La relación “genotipo-fenotipo” y su posible extrapolación al estudio del comportamiento y la cultura humana, Ludus Vitalis, Revista de Filosofía de las Ciencias de la Vida, vol. VIII, N◦ 14, p. 189-202, 2000.Løvtrup, S., Epigenetics A treatise on Theoretical Biology, John Wiley y Sons. London. 1974Ho, M. W. y Saunders, P. T., Beyond Neo Darwinism- An Epigenetic Approach to Evolution, Journal Theoretical Biology 78, 573-591, 1979.Goodwin, B., How the Leopard changed its spots. The Evolution of Complexity, A touchstone book, Published by Simon y Schuster. New York. 1994.Andrade, L. E., The Organization of Nature: Semiotic Agents as Intermedirios Between Digital and Analog Informational spaces, SEED Journal (Semiosis Evolution Energy Development), Vol 2 N◦ 1, p. 56- 84, 2002. http://www.library.utoronto.ca/see.Ascot, P., The Lamarckian Cradle of Scientific Ecology, acta Biotheoretica, 45, 185-193, 1997.Leff, H. y A. Rex, Maxwell’s Demon, Entropy, Information, Computing, Princeton University Press, 15-18, 1990.Grygoriu, P. Estrategias diferentes para aumentar la información durante la evolución de los organismos simples y complejos, Memorias del Seminario de Ciencia Teórica, Academia Colombiana de Ciencias Exactas, Físicas y Naturales, Bogotá, 47-72, 1996.Cohen, I. The Cognitive Principle challenges clonal selection, Immunology Today, 13, 11, 441-444, 1992.Bohm, D. Algunas observaciones sobre la noción del orden, en Conrad, H. Waddington, Las ideas básicas de la biología. Hacia una biología teórica, Madrid, Alianza Editorial, S. A., 1976.Robertson, D.L. y G.F. Joyce, The Catalytic Potencial of RNA, en Molecular Evolution on Rugged Landscapes: Proteins, RNA and the Immune System. Editado por A.S. Perelson y S.AKauffman, Santa Fe Institute in the Science of Complexity, 1991.Horgan J., Complexity and perplexity, Scientific American, Junio de 1995.Bennet C.H., Logical depth and physical complexity, en R. de Herken The Universal Turing Machine: A Half-Century Survey, Oxford University Press, p. 229, 1988.Aristoteles, Metafísica, Estudio introductorio. Análisis de libros y revisión del texto por Francisco Larroyo, Editorial Porrúa, México, 1998.Aristoteles, Physics Book I and II, Translated with Introduction, Commentary, Note on Recent Work, and Revised Bibliography by William Charlton, Claredon Press, Oxford, 1992.Kant, I., The Critique of Judment, Translated by Jmes Creed Meredith Litt. D. (TCD), Oxford University Press, Amen House, London EC4 (1928), KU §16(77), 407 pp: 62, 1952. Reprinted 1964.Thompson, DÁ rcy, On Growth and Form, Ed. J. T. Bonner, Cambridge University Press, cambridge, 1961.Bateson, G., Mind and Nature.A necesary Unity, Bantam Books, 1979.Peirce C.S., Collected Papers of Charles Sanders Peirce, Vol 8, Ed. by Charles Hartshome , Paul Weiss y A. W. Burks (Ed.), Cambridge, MA: Harvard University Press, C.P. 7.528, 1931-1958.Peirce C.S., Collected Papers, The Belknap Press of Harvard University Press, Cambridge, MA, translated and Edited by Armando Sercovich, Obra lógico semiótica, Taurus Ediciones, Madrid, 1987.Taborsky, E., The Internal and External Semiosic Properties of Reality, SEED Journal (Semiosis Energy Evolution Development), 1 N◦1, 2001.Wächterhäuser, G., Methodology and The Origin of Life, Journal of Theoretical Biology, 187(4), p. 491, 1997.Vinogradov, A. E., Buffering: A Passive Homeostasis Role for Redudndant DNA, Journal Theoretical Biology, 193, p. 197-199, 1998.Dretske, F. I., Conocimiento e información, Barcelona. Salvat Editores, 1987.Schneider, E.D. y Kay, J.J., Complexity and Thermodynamics: Towards a New Ecology, Futures, 24(6), p. 626-647, 1994.Salthe, S. N., Energy Development and Semiosis, En: Edwma Taborsky (Ed.), Semiosis Evolution Energy Towards a Reconceptualization of the sign, Shaker verlag Aachen, Alemania, p. 245-261, 1999.Van Valen, L., A New Evolutionary Law, Evolutionary Theory, 1, p. 1-24, 1973Lamarck J.B. 1803, Zoological Philosophy, Nueva York, Hafner, p. 410. Traducido por H. Elliot y reimpresión, 1963.Fox S. W., Proteinoid Experiments and evolutionary Theory, In Beyond Neo-Darwinism. Ed. Mae-Wan Ho y Peter T. Saunders. Academic Press, Inc, p. 15-60, 1984.Eldredge, N., Unfinished Synthesis. Biological Hierarchies and Modern Evolutionary Thought. New York, Oxford. Oxford University Press. 1985.Hull D.L., A Matter of Individuality. Philosophy of Science, 45, p. 335-360, 1978.Hesse, M., Models and Analogies in Science, Notre Dame, University of Notre Dame Press, 1966.Barnes, B., Scientific Knowledge and Sociological Theory, London: Routledge, 1974.Ricoeur, P., The Rule of Metaphor, Toronto, University of Toronto Press, 1977.Cullmann, G, y Labouygues, J. M., Le Code Génétique Instantané Absolutment Optimal, Compte Rendue 301, Serie III, 157-160, 1985.EstudiantesInvestigadoresPúblico generalLICENSElicense.txtlicense.txttext/plain; charset=utf-85879https://repositorio.unal.edu.co/bitstream/unal/85664/1/license.txteb34b1cf90b7e1103fc9dfd26be24b4aMD51ORIGINAL13. Los demonios de Darwin (taco).pdf13. Los demonios de Darwin (taco).pdfLibro Los demonios de Darwinapplication/pdf1682965https://repositorio.unal.edu.co/bitstream/unal/85664/2/13.%20Los%20demonios%20de%20Darwin%20%28taco%29.pdf0ce6b47b7396ea1874f2e4a394ab54beMD52THUMBNAIL13. Los demonios de Darwin (taco).pdf.jpg13. 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