Фрэнк Райан - Виролюция. Важнейшая книга об эволюции после «Эгоистичного гена» Ричарда Докинза

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Márquez L.M., Redman R. S., Rodriguez R. J., Roossinck M.J. A virus in a fungus in a plant: three-way symbiosis required for thermal tolerance. Science 2007; 315: 513–515.

Villarreal L.P. Viral persistence and symbiosis: are they related? Symbiosis 2007; 43:1–9. Ryan F.P. Viruses as symbionts. Symbiosis 2007; 44: 11–21.

Ryan F. Р. Genomic creativity and natural selection: a modern synthesis. Biological Journal of the Linnean Society 2006; 88: 655–672

Feder M.E. Evolvability of physiological and biochemical traits: evolutionary mechanisms including and beyond singlenucleotide mutation. Journal of Experimental Biology 2007; 210:1653–60.

Ryan F. Genomic creativity and natural selection: a modern synthesis. Biological Journal of the Linnean Society 2006; 88: 655–672.

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Arnold M. L. Natural Hybridisation and Evolution. Oxford: Oxford University Press 1997: 7. См. также, Martinson G. D., Whitham T.G., Rurek R. J., Keim P. Hybrid populations selectively filter gene introgression between species. Evolution 2001; 55: 1325–1335.

Аллели — различные формы одного и того же гена, определяющие альтернативные варианты развития одного и того же признака. — Прим. ред.

Mavárez J., Salazar С. А, Bermingham E., Salcedo С., Jiggins C.D. Speciation by hybridization in Helioconius butterflies. Nature 2006;441: 868–71.

Gompert Z., Fordyce J.A., Forister M.L., et al. Homoploid hybrid speciation in an extreme habitat. Science 2006; 314: 1923–5.

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Gallardo M.H., Kirsch J.W. A. Molecular relationships among Octodontidae (Mam malia: Rodentia: Cav iomorpha). Journal of Mammalian Evolution 2001; 8: 73–89.

Gallardo M.H., Kausel G., Jiménez A., et al. Whole-genome duplications in South American desert rodents (Octodontidae). Biological Journal of the Linnean Society 2004; 82: 443–451.

Название этой главы взято из статьи Spring J. Hypothesis. Vertebrate evolution by interspecific hybridisation — are we polyploid? Federation of European Biochemical Sciences Letters 1997; 400: 2–8

Ohno S. Evolution by Gene Duplication. New York: Springer Verlag, 1970.

Patterson N., Richter D. J., Gnerre S., et al. Genetic evidence for complex speciation of humans and chimpanzees. Nature 2006;441:1103–8.

Our human history. New York Times 22 May 2006, Editorial.

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Whitfield J. Lovers, not fighters? New genetic signs that modern humans mated with Homo erectus. Scientific American March 2008; 21.

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Ferrier D.E.K., Minguillón C. Evolution of the Hox / ParaHox gene clusters. International Journal of Developmental Biology 2003; 47: 605–611.

Gibson T. J., Spring J. Evolution of sequences, structures and genomes. Biochemical Society Transactions 2000; 28 (2): 259–264.

Brooke N. M., Garcia-Fernandez J., Holland P. W. H. The ParaHox gene cluster is an evolutionary sister of the Hox gene cluster. Nature 1998; 392: 920–922. See also, Pebusque M.J., Coulier F., Birnhaum D., Pontarotti P. Ancient large-scale genome duplications: phylogenetic and linkage analyses shed light on chordate genome evolution. Molecular Biology and Evolution 1998; 15: 1145–59.

McLysaght A., Hokamp K., Wolfe К. H. Extensive genomic duplication during early chordate evolution. Nature Genetics 2002; 2: 128–129.

Более подробное описание этих исследований и дальнейшие ссылки можно найти в работе: Ryan F.P. An alternative approach to medical genetics based on modern evolutionary biology. Part 5: epigenetics and genomic duplications. Journal of the Royal Society of Medicine 2009: (in press).

Check E. Mix and match: the hunt for what makes us human. Nature «News» 2006; 443: 8.

Holmes В. Magic Numbers. New Scientist 8 April 2006: 38–41.

Bernaud R., Boyer A., Nègre., et al. Prenatal detection of the 17p11.2 duplication in Charcot-Marie-Tooth disease type 1A: necessity of a multidisciplinary approach for heterogeneous disorders. European Journal of Human Genetics 2002; 10: 297–302.

Lucito R., Healy J., Alexander J., et al. Large scale copy number polymorphisms in the human genome. Science 305: 525–528.

Redon R., Ishikawa S., Fitch K. R. Global variation in copy number in the human genome. Nature 2006; 444: 444–456.

Baird P. А.Reducing birth defects in populations. Centre for Health Services and Policy Research, The University of British Columbia, January 1999. HPRU 99: 4D. http://www.chspr.ubc.ca/files/pubhcations/1999/hpru99-04D.pdf.

Yamamoto А., Lucas J.J., Hen R. Reversal of neuropathology and motor dysfunction in a conditional model of Huntington’s disease. Cell 2000: 101: 57–66.

PubMed — англоязычная текстовая база данных медицинских и биологических публикаций, созданная Национальным центром биотехнологической информации (NCBI) США на основе раздела «биотехнология» Национальной медицинской библиотеки США. — Прим. ред.

Weissmann G. Fashions in science: from philosophers’ camp to epigenetics. The Federation of American Societies for Experimental Biology (FASB) Journal 2008; 22: 4033–7.

Телеология — философское учение о целесообразности бытия, оперирующее наличием разумной воли Творца или внутренней силы, потенциально заключающей в себе цель и окончательный результат. — Прим. ред.

Stern C.D. Conrad H. Waddington’s contributions to avian and mammalian development, 1930–1940. International Journal of Developmental Biology, 2000; 44: 15–23.

Уоддингтон ввел термин «эпигенетический» в своей книге «An introduction to Modem Genetics». London: Allen & Unwin, 1939: 154–156.

Spadafora C. A reverse transcriptase-dependent mechanism plays central roles in fundamental biological processes. Systems Biology in Reproductive Medicine 2008; 54: 11–21.

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Holliday R., Pugh J. Е. DNA modification mechanisms and gene activity during development. Science 1975; 187: 226–232.

Riggs A. D. X inactivation, differentiation and DNA methylation. Cytogenetics and Cell Genetics 1975; 14: 9–25.

Sagar R., Kitchin R. Selective silencing of eukaryotic gene expression. Science 1975; 189: 426–433.

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Jablonka E., Lamb M. J. The inheritance of acquired epigenetic variations. Journal of Theoretical Biology 1989; 139: 69–83.

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Jablonka E., Lamb M.J. Epigenetic Inheritance and Evolution: The Lamarckian Dimension. Oxford University Press, Oxford, 1995.

Jablonka E., Lamb M. J. Evolution in Four Dimensions. Cambridge, Massachusetts, and London: the MIT Press, 2005.

Jablonka E., Raz G. Transgenerational epigenetic inheritance: prevalence, mechanisms, and implications for the study of heredity and evolution. In press, The Quarterly Review of Biology 2009; 84 (2): 31–176.

Gilberts. F., Epel D. Ecological Developmental Biology. Sunderland, Massachusetts: Sinauer Associates Inc, 2009: 8.

Grant-Downton R.T., Dickinson H. G. Epigenetics and its implications for plant biology. 1. The epigenetic network in plants. Annals of Botany 2005; 96: 1143–64. Grant-Downton R. T., Dickinson H. G. Epigenetics and its implications for plant biology. 2. The «epigenetic epiphany»: epigenetics, evolution and beyond. Annals of Botany 2006; 97: 11–27.

Wilson A. G. Epigenetic regulation of gene expression in the inflammatory response and relevance to common diseases. Journal of Periodontology 2008; 79: 1514–9.

Godwin J., Luckenbach J.A., Borski R.J. Ecology meets endocrinology: environmental sex determination in fishes. Evolutionary Development 2003; 5 (1): 40–49.