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  • Tytuł artykułu:
    Konieczne rozwiązania życia w ujęciu Simona Conwaya Morrisa
  • Opublikowany w czasopiśmie:
  • Rocznik 2010,  tom 6/7
  • 7-63
  • Oryginalny artykuł naukowy
  • polski
  • article-2cb15021-2d49-47f7-aa14-c8f04fa82e67
  • 117340
  • 19.06.2016 00:03:17
  • Michał Nowosad [1]
  • [1] Uniwersytet Zielonogórski; Wydział Humanistyczny
  • Brak afiliacji
Nie znaleziono publikacji cytujących ten artykuł
  1. Simon CONWAY MORRIS, Life’s Solution: Inevitable Humans in a Lonely Universe, Cambridge University Press, New York 2006.
  2. Iris FRY, The Emergence of Life on Earth: A Historical and Scientific Overview, Free Association, London 1999.
  3. Robert SHAPIRO and Gerald FEINBERG, „Possible Forms of Life in Environments Very Different from the Earth”, w: J. LESLIE (ed.), Physical Cosmology and Philosophy, Macmillan, New York 1990, s. 248-255.
  4. Frank H. WESTHEIMER, „Why Nature Chose Phosphates”, Science 1987, vol. 235, no. 4793, s. 1173-1178.
  5. Kenneth D. JAMES and Andrew D. ELLINGTON, „The Search for Missing Links Between Self-Replicating Nucleic Acids and the RNA World”, Origins of Life and Evolution of Biospheres 1995, vol. 25, no. 6, s. 515-530.
  6. M. BEIER, F. RECK, T. WAGNER, R. KRISHNAMURTHY and Albert ESCHENMOSER, „Chemical Etiology of Nucleic Acid Structure: Comparing Pentopyranosyl-(2’→4’) Oligonucleotides with RNA”, Science 1999, vol. 283, no. 5402, s. 699-703.
  7. Stefan PITSCH, Sebastian WENDEBORN, Bernhard JAUN and Albert ESCHENMOSER, „Why Pentose – and Not Hexose – Nucleic Acids?”, Helvetica Chemica Acta 1993, vol. 76, s. 2161-2183.
  8. Albert ESCHENMOSER, „Chemical Etiology of Nucleic Acid Structure: The α-Threofuranosyl-( 3’→2’) Oligonucleotide System”, Science 2000, vol. 290, no. 5495, s. 1347-1351.
  9. J.A. PICCIRILLI, T. KRAUCH, S.E. MORONEY and S.A. BENNER, „Enzymatic Incorporation of a New Base Pair into DNA and RNA Extends the Genetic Alphabet”, Nature 1990, no. 343, s. 33-37.
  10. Christopher ROBERTS, Rajanikanth BANDARU and Christopher SWITZER, „Theoretical and Experimental Study of Isoguanine and Isocytosine: Base Pairing in an Expanded Genetic System”, Journal of the American Chemical Society 1997, vol. 119, s. 4640-4649.
  11. Eors SZATHMARY, „Four Letters in the Genetic Alphabet: A Frozen Evolutionary Optimum?”, Proceedings of the Royal Society of London B: Biological Sciences 1991, vol. 245, no. 1313, s. 91-99.
  12. Robin D. KNIGHT, Stephen J. FREELAND and Laura F. LANDWEBER, „Rewiring the Keyboard: Evolvability of the Genetic Code”, Nature Reviews Genetics 2001, vol. 2, s. 49-58.
  13. Amos BAIROCH, „ENZYME – Enzyme Nomenclature Database”, http://www.expasy.ch/enzyme/ (09.05.2008).
  14. Temple F. SMITH and Harold J. MOROWITZ, „Between History and Physics”, Journal of Molecular Evolution 1982, vol. 18, no. 4, s. 265-282.
  15. Sridhar GOVINDARAJAN and Richard A. GOLDSTEIN, „Why Are Some Protein Structures So Common?”, Proceedings of the National Academy of Sciences 1996, vol. 93, no. 8, s. 3341-3345.
  16. Gregory K. FARBER, „An α/β-Barrel Full of Evolutionary Trouble”, Current Opinion in Structural Biology 1993, vol. 3, no. 3, s. 409-412.
  17. Jean-Francois GIBRAT and Stephen H. BRYANT, „Surprising Similarities in Structure Comparison”, Current Opinion in Structural Biology 1996, vol. 6, no. 3, s. 377-385.
  18. Takagi TAKASHI, „An α/bg-Barrel Full of Evolutionary Trouble”, Current Opinion in Structural Biology 1993, vol. 3, no. 3, s. 413-418.
  19. S. Liangbiao CHEN, Arthur L. DEVRIES and Chi-Hing C. CHENG, „Convergent Evolution of Antifreeze Glycoproteins in Antarctic Notothenioid Fish and Arctic Cod”, Proceedings of the National Academy of Sciences 1997, vol. 94, s. 3817-3822.
  20. M. NEITZ, J. NEITZ and G.H. JACOBS, „Spectral Tuning of Pigments Underlying Red-Green Color Vision”, Science 1991, vol. 252, no. 5008, s. 971-974.
  21. Armen Y. MULKIJANIAN and Wolfgang JUNGE, „On the Origin of Photosynthesis as Inferred from Sequence Analysis”, Photosynthesis Research 1997, vol. 51, no. 1, s. 27-42.
  22. Fred C. HARTMAN and Mark R. HARPEL, „Structure, Function, Regulation, and Assembly of d-Ribulose-1,5-Bisphosphate Carboxylase/Oxygenase”, Annual Review of Biochemistry 1994, vol. 63, s. 197-232.
  23. George WALD, „Fitness in the Universe: Choices and Necessities”, Origins of Life and Evolution of Biospheres 1974, vol. 5, no. 1-2, s. 7-27.
  24. J.R. CRONIN, W.E. GANDY and S. PIZZARELLO, „Amino Acids of the Murchison Meteorite”, Journal of Molecular Evolution 1981, vol. 17, no. 5, s. 265-272.
  25. R.D.K. THOMAS and W-E. REIF, „The Skeleton Space: A Finite Set of Organic Designs”, Evolution 1993, vol. 47, no. 2, s. 341-360.
  26. R.D.K. THOMAS, Rebecca M. SHEARMAN and Graham W. STEWART, „Evolutionary Exploitation of Design Options by the First Animals with Hard Skeletons”, Science 2000, vol. 288, s. 1239-1242.
  27. Graham E. BUDD, „Does Evolution in Body Patterning Genes Drive Morphological Change – or Vice Versa?”, BioEssays 1999, vol. 21, no. 4, s. 326-332.
  28. G. LEDYARD STEBBINS, Jr., „Natural Selection and the Differentiation of Angiosperm Families”, Evolution 1951, vol. 5, no. 4, s. 299-324.
  29. Kirk FITZHUGH, „A Systematic Revision of the Sabellidae-Caobangiidae-Sabellongidae Complex (Annelida, Polychaeta)”, Bulletin of the American Museum of Natural History, New York 1989, no. 192, s. 1-104.
  30. David SANDEMAN, „Homology and Convergence in Vertebrate and Invertebrate Nervous Systems”, Naturwissenschaften 1999, vol. 86, no. 8, s. 378-387.
  31. George WALD and Stephen RAYPORT, „Vision in Annelid Worms”, Science 1977, vol. 196, no. 4297, s. 1434-1439.
  32. K.M. WILBUR and C.M. YONGE, Physiology of Mollusca, vol. II, Academic Press, London 1966, s. 455-521.
  33. A.D. BLEST, R.C. HARDIE, P. MCINTYRE and D.S. WILLIAMS, „The Spectral Sensitivities of Identified Receptors and the Function of Retinal Tiering in the Principal Eyes of a Jumping Spider”, Journal of Comparative Physiology A: Neuroethology, Sensory, Neural, and Behavioral Physiology 1981, vol. 145, s. 227-239.
  34. Alan G. PEASLEE and Graeme WILSON, „Spectral Sensitivity in Jumping Spiders (Araneae, Salticidae)”, Journal of Comparative Physiology A: Neuroethology, Sensory, Neural, and Behavioral Physiology 1989, vol. 164, s. 359-363.
  35. M.F. LAND, „Optics and Vision in Invertebrates”, w: H. AUTRUM (ed.), Handbook of Sensory Physiology, vol. VII/6B: Invertebrate Visual Centers and Behavior I, Springer, Berlin 1981, s. 471-592.
  36. Kaustuv ROY, „The Roles of Mass Extinction and Biotic Interaction in Large-Scale Replacements: A Reexamination Using the Fossil Record of Stromboidean Gastropods”, Paleobiology 1996, vol. 22, no. 3, s. 436-452.
  37. P.V. HAMILTON and M.A. WINTER, „Behavioural Responses to Visual Stimuli by the Snail Littorina irrorata”, Animal Behaviour 1982, vol. 30, no. 3, s. 752-760.
  38. Jeffrey W. SHULTZ, „The Origin of the Spinning Apparatus in Spiders”, Biological Reviews 1987, vol. 62, s. 89-113.
  39. Catherine L. CRAIG, Gary D. BERNARD and Jonathan A. CODDINGTON, „Evolutionary Shifts in the Spectral Properties of Spider Silk”, Evolution 1994, vol. 48, no. 2, s. 287-296.
  40. Catherine L. CRAIG, „Evolution of Arthropod Silks”, Annual Review of Entomology 1997, vol. 42, s. 231-267.
  41. U. ASPÖCK and M.W. MANSELL, „A Revision of the Family Rhachiberothidae Tjeder, 1959, stat.n. (Neuroptera)”, Systematic Entomology 1994, vol. 19, no. 3, s. 181-206.
  42. Dale TSHUDY and Ulf SORHANNUS, „Pectinate Claws in Decapod Crustaceans: Convergence in Four Lineages”, Journal of Paleontology 2000, vol. 74, no. 3, s. 474-486.
  43. C.L. MORRISON, A.W. HARVEY, S. LAVERY, K. TIEU, Y. HUANG and C.W. CUNNINGHAM, „Mitochondrial Gene Rearrangements Confirm the Parallel Evolution of the Crab-like Form”, Proceedings of the Royal Society B: Biological Sciences 2002, vol. 269, s. 345-350.
  44. A. TURNER and M. ANTÓN, The Big Cats and Their Fossil Relatives: An Illustrated Guide to Their Evolution and Natural History, Columbia University Press, New York 1997.
  45. Harold N. BRYANT and C.S. CHURCHER, „All Sabretoothed Carnivores Aren’t Sharks”, Nature 1987, vol. 325, s. 488.
  46. John A.W. Kirsch, „The Six Per Cent Solution: Second Thoughts on the Adaptedness of the Marsupialia”, American Scientist 1977, vol. 65, no. 3, s. 276-288.
  47. D.J. FUTUYMA (ed.), Coevolution, Sinauer, Sunderland, Massachusetts 1983.
  48. Kirk O. WINEMILLER, „Ecomorphological Diversification in Lowland Freshwater Fish Assemblages from Five Biotic Regions”, Ecological Monographs 1991, vol. 61, no. 4, s. 343-365.
  49. W.H. GOTWALD, Army Ants: The Biology of Social Predation, Cornell University Press, Ithaca 1995.
  50. N.R. FRANKS, A.B. SENDOVA-FRANKS, J. SIMMONS and M. MOGIE, „Convergent Evolution, Superefficient Teams and Tempo in Old and New World Army Ants”, Proceedings of the Royal Society B: Biological Sciences 1999, vol. 266, no. 1429, s. 1697-1701.
  51. Bernard J. CRESPI, „The Evolution of Social Behavior in Microorganisms”, Trends in Ecology & Evolution 2001, vol. 16, no. 4, s. 178-183.
  52. Michael MANEFIELD, Ricky DE NYS, Naresh KUMAR, Roger READ, Michael GOVSKOV, Peter STEINBERG and Staffan KJELLEBERG, „Evidence That Halogenated Furanones from Delisea pulchra Inhibit Acylated Homoserine Lactone (AHL)-Mediated Gene Expression by Displacing the AHL Signal from Its Receptor Protein”, Microbiology 1999, vol. 145, s. 283-291.
  53. Michael DENTON and Craig MARSHALL, „Laws of Form Revisited”, Nature 2001, vol. 410, s. 417.
  54. William B. WHITMAN, David C. COLEMAN and William J. WIEBE, „Prokaryotes: The Unseen Majority”, Proceedings of the National Academy of Sciences 1998, vol. 95, s. 6578-6583.
  55. Douglas J. FUTUYMA, Ewolucja, Wydawnictwa Uniwersytetu Warszawskiego, Warszawa 2008.
  56. Stefan H. HEINEMANN, Heinrich TERLAU, Walter STÜHMER, Keiji IMOTO and Shosaku NUMA, „Calcium Channel Characteristics Conferred on the Sodium Channel by Single Mutations”, Nature 1992, vol. 356, s. 441-443.
  57. Colette FEBVRE-CHEVALIER, André BILBAUT, Quentin BONE and Jean FEBVRE, „Sodium-Calcium Action Potential Associated with Contraction in the Heliozoan Actinocoryne Contractilis”, Journal of Experimental Biology 1986, vol. 122, s. 177-192.
  58. Milton H. SAIER Jr., „Convergence and Divergence in the Evolution of Transport Proteins”, Science 1994, vol. 16, no. 1, s. 23-29.
  59. Maria Umberta Delmonte CORRADO, Huguette POLITI, Marzia OGNIBENE, Cristiano ANGELINI, Francesca TRIELLI, Patrizia BALLARINI and Carla FALUGI, „Synthesis of the Signal Molecule Acetylcholine during the Developmental Cycle of PARAMECIUM PRIMAURELIA (Protista, Ciliophora) and Its Possible Function in Conjugation”, Journal of Experimental Biology 2001, vol. 204, s. 1901-1907.
  60. R.A. WATTS, P.W. HUNT, A.N. HVITVED, M.S. HARGROVE, W.J. PEACOCK and E.S. DENNIS, „A Hemoglobin from Plants Homologous to Truncated Hemoglobins of Microorganisms”, Proceedings of the National Academy of Sciences 2001, vol. 98, no. 18, s. 10119-10124.
  61. Kensal E. VAN HOLDE, Karen I. MILLER and Heinz DECKERI, „Hemocyanins and Invertebrate Evolution”, The Journal of Biological Chemistry 2001, vol. 276, no. 19, s. 15563- 15566.
  62. Jennifer E. SMITH, Joseph M. KOLOWSKI, Katharine E. GRAHAMA, Stephanie E. DAMESA and Kay E. HOLEKAMP, „Social and Ecological Determinants of Fission–Fusion Dynamics in the Spotted Hyaena”, Animal Behaviour 2008, vol. 76, no. 3, s. 619-636.
  63. David LAROM, Michael GASTRANG, Katharine PAYNE, Richard RASPET and Malan LINDEQUE, „The Influence of Surface Atmospheric Conditions on the Range and Area Reached by Animal Vocalizations”, The Journal of Experimental Biology 1997, vol. 200, s. 421- 431.
  64. Patrick J. O. MILLER and David E. BAIN, „Within-Pod Variation in the Sound Production of a Pod of Killer Whales, Orcinus orca”, Animal Behaviour 2000, vol. 60, no. 5, s. 617-628.
  65. Brenda MCCOWAN, Lori MARINO, Erik VANCE, Leah WALKE and Diana REISS, „Bubble Ring Play of Bottlenose Dolphins (Tursiops truncatus): Implications for Cognition”, Journal of Comparative Psychology 2000, vol. 114, no. 1, s. 98-106.
  66. Gregory Charles WESTERGAARD, Michael Katherine HAYNIE, Andrew L. LUNDQUIST and Stephen J. SUOMI, „Carrying, Sharing, and Hand Preference in Tufted Capuchins (Cebus apella)”, International Journal of Primatology 1999, vol. 20, no. 1, s. 153-162.
  67. Sarah ELTON, Laura C. BISHOP and Bernard WOOD, „Comparative Context of Plio-Pleistocene Hominin Brain Evolution”, Journal of Human Evolution 2001, vol. 41, no. 1, s. 1-27.
  68. Eldra Pearl SOLOMON, Linda R. BERG, Diana W. MARTIN and Claude A. VILLEE, Biologia, MULTICO Oficyna Wydawnicza, Warszawa 1996.
  69. „ESA – Space Science – How Many Stars Are There in the Universe?”, http://www.esa.int/esaSC/SEM75BS1VED_index_0.html (23.07.2009).
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