Referencias bibliográficas de la célula

(Ciencias de Joseleg)(Biología)(Introducción y biología celular)(La célula)(Introducción)(Del vitalismo a la abiogénesis)(El fin del vitalismo)(Del microscopio a la teoría celular)(Más que una bolsa de proteínas)(Como se estudia la célula)(Las propiedades de las células)(Generalidades de la célula y su estudio)(La célula procariota)(La célula eucariota)(Introducción a las partes de la célula)(Referencias bibliográficas)(Versión documento word)

 Alberts, B., Johnson, A., Lewis, J., Morgan, D., Raff, M., Roberts, K., & Walter, P. (2015). Molecular biology of the cell (5a ed.). Garland Science.

Aristotle. (2014a). History of animals. Recuperado a partir de http://ebooks.adelaide.edu.au/a/aristotle/history/

Aristotle. (2014b). On the Generation of Animals. Recuperado a partir de http://ebooks.adelaide.edu.au/a/aristotle/generation/index.html

Becker, W. M., Kleinsmith, L. J., & Hardin, J. (2005). The world of the cell. Benjamin-Cummings Publishing Company.

Belk, C., & Maier, V. B. (2013). Biology Science for Life with physiology. (Pearson, Ed.) (4a ed.).

Bellis, M. (2009). History of microscopes. Retrieved June, 29, 2009.

Benfey, O. T. (2007). The conceptual structure of the sciences. En Philosophy of Chemistry: Synthesis of a New Discipline, Boston Studies in the Philosophy and History of Science (pp. 95–117). Springer.

Benton, E. (1974). Vitalism in nineteenth-century scientific thought: A typology and reassessment. Studies in History and Philosophy of Science Part A, 5(1), 17–48.

Bergandi, D. (2011). Multifaceted ecology between organicism, emergentism and reductionism. En Ecology Revisited (pp. 31–43). Springer.

Bersini, H., Stano, P., Luisi, P. L., & Bedau, M. A. (2012). Philosophical and scientific perspectives on emergence. Synthese, 185(2), 165–169.

Blanco, D. (2012). Aristas controversiales en la caja negra de Darwin. Lógoi, (8).

Breton, P. J. (1999). From microns to nanometers: early landmarks in the science of scanning electron microscope imaging. Scanning Microsc, 13(1), 1–6.

Brown, J. (2015). Being cellular: Race, the inhuman, and the plasticity of life. GLQ: A Journal of Lesbian and Gay Studies, 21(2–3), 321–341.

Butlerow, A. (1861). Formation synthétique d’une substance sucrée. CR Acad. Sci, 53, 145–147.

Campbell, M. K., & Farrell, S. O. (2009). Biochemistry (6a ed.). USA: Thomsom Brooks/Cole.

Cloutier, M. J. (1995). Antibiotics: Mechanisms of Action and Acquisition of Resistance--When Magic Bullets Lose Their Magic. American Journal of Pharmaceutical Education, 59(2), 167–172.

Cox, M. M., Doudna, J. A., & O’Donnell, M. (2012). Molecular biology (1a ed.). Freeman.

Damiano, L. (2012). Co-emergences in life and science: a double proposal for biological emergentism. Synthese, 185(2), 273–294.

Darwin, C. (1859). On the origins of species by means of natural selection. London: Murray.

Darwin, F. (1887). The life and letters of Charles Darwin including an autobiographical chapter edited by his son. London, Murray.

De Duve, C., & Pizano, M. (1995). Polvo vital: origen y evolución de la vida en la tierra. Norma, Bogotá.

Deichmann, U. (2011). Early 20th-century research at the interfaces of genetics, development, and evolution: Reflections on progress and dead ends. Developmental biology, 357(1), 3–12.

Denton, M. J., Kumaramanickavel, G., & Legge, M. (2013). Cells as irreducible wholes: the failure of mechanism and the possibility of an organicist revival. Biology & Philosophy, 28(1), 31–52.

Drews, G. (2000). The roots of microbiology and the influence of Ferdinand Cohn on microbiology of the 19th century. FEMS microbiology reviews, 24(3), 225–249.

Farley, J. (1972). The spontaneous generation controversy (1859–1880): British and German reactions to the problem of abiogenesis. Journal of the History of Biology, 5(2), 285–319.

Farley, J. (1974). The initial reactions of French biologists to Darwin’s Origin of Species. Journal of the History of Biology, 7(2), 275–300.

García-García; J L. (2014). Un análisis histórico-epistemológico de tres aportes de la química prebiótica. Universidad pedagógica nacional de Colombia.

Gest, H. (2004). The discovery of microorganisms by Robert Hooke and Antoni Van Leeuwenhoek, fellows of the Royal Society. Notes and Records of the Royal Society, 58(2), 187–201.

Gilbert, S. F., & Sarkar, S. (2000). Embracing complexity: organicism for the 21st century. Developmental dynamics, 219(1), 1–9.

Gottdenker, P. (1979). Francesco Redi and the fly experiments. Bulletin of the History of Medicine, 53(4), 575.

Haeckel, E. (1862). Die Radiolarien (Rhizopoda radiaria): eine Monographie (Vol. 1). Reimer.

Henderson, J. (2012). Vitalism and the Darwin Debate. Science & Education, 1–11.

Henry, F. G. (1999). Anti-Darwinism in France: Science and the Myth of Nation. Nineteenth-century French studies, 290–304.

Herrera, A. L. (1932). La plasmogenia: nueva ciencia del origen de la vida. Cuadernos de lectura. Recuperado a partir de http://www.uv.es/orilife/textos/Plasmogenia.pdf

Hoefnagels, M. (2015). Biology: concepts and investigations (3a ed.). McGraw-Hill New York.

Hooke, R. (2003). 1665 Micrographia. London: Martyn and Allestry.

Hordijk, W., Hein, J., & Steel, M. (2010). Autocatalytic sets and the origin of life. Entropy, 12(7), 1733–1742.

Hoyningen-Huene, P. (1991). Theory of antireductionist arguments: the Bohr case study. En The Problem of Reductionism in Science (pp. 51–70). Springer.

Jacob. F. (1973). La lógica de lo viviente. Biblioteca científica Salvat.

Karp, G. C. (2013). Cell and Molecular Biology, Concepts and Experiments (7a ed.). USA: Wiley Online Library.

Lazcano, A. (2010). Historical development of origins research. Cold Spring Harbor perspectives in biology, 2(11), a002089.

Lazzerini-Ospri, L., Stano, P., Luisi, P., & Marangoni, R. (2012). Characterization of the emergent properties of a synthetic quasi-cellular system. BMC bioinformatics, 13(Suppl 4), S9.

Lewin, R. (1999). Complexity: Life at the edge of chaos. University of Chicago Press.

Lucey, B. P., Nelson-Rees, W. A., & Hutchins, G. M. (2009). Henrietta Lacks, HeLa cells, and cell culture contamination. Archives of pathology & laboratory medicine, 133(9), 1463–1467.

Mackean, D. G., & Hayward, D. (2014). Biology (3a ed.). IGCSE Cambridge.

Mader, S. S. (2010). Biology (10a ed.). McGraw-Hill Education.

Mader, S. S., & Windelspecht, M. (2015). Biology (12a ed.). McGraw-Hill Education.

Malaterre, C. (2013). Life as an emergent phenomenon: From an alternative to vitalism to an alternative to reductionism. En Vitalism and the Scientific Image in Post-Enlightenment Life Science, 1800-2010 (pp. 155–178). Springer.

marquis Du Trochet, H. (1824). Recherches anatomiques et physiologiques sur la structure intime des animaux et des végétaux, et sur leur motilité. JB Baillière.

Mason, K. A., Losos, J. B., Singer, S. R., & Raven, P. H. (2014). Biology (7a ed.). McGraw-Hill New York.

Mayr, E. (1997). This is biology: the science of the living world. Universities Press.

Mazzarello, P. (1999). A unifying concept: the history of cell theory. Nature Cell Biology, 1(1), E13–E15.

Mazzocchi, F. (2008). Complexity in biology. EMBO reports, 9(1), 10–14.

Miller, S. L., & Lazcano, A. (2002). Formation of the building blocks of life. Life’s origin: the beginnings of biological evolution. California University Press, Berkeley, 78–112.

Morowitz, H. J., Srinivasan, V., & Smith, E. (2010). Ligand field theory and the origin of life as an emergent feature of the periodic table of elements. The Biological Bulletin, 219(1), 1–6.

Morris, P. J. (1997). Louis Agassiz’s arguments against Darwinism in his additions to the French translation of the Essay on Classification. Journal of the History of Biology, 30(1), 121–134.

Murray, R. K., Bender, D. A., Botham, K. M., Kennelly, P. J., Rodwell, V., & Weil, A. (2012). Harpers Illustrated Biochemistry (29a ed.). McGraw-Hill Medical.

Nakazawa, H. (2018). “Miller–Urey Experiment” in the Recent Picture of the Early Earth. En Darwinian Evolution of Molecules (pp. 55–73). Springer.

Negrón-Mendoza, A. (1994). The Alexander Ivanovich Oparin 100th Anniversary Conference. En The structure and model of the first cell (p. 7). Miramare, Italy: International Centre for Genetic Engineering and Biotechnology.

Negrón-Mendoza, A. (1995). Alfonso L. Herrera: A Mexican pioneer in the study of chemical evolution. Journal of biological physics, 20(1), 11–15.

Nezelof, C. (2003). Henri dutrochet (1776–1847): an unheralded discoverer of the cell. Annals of diagnostic pathology, 7(4), 264–272.

Oparin, A. I. (1957). The origin of life on the earth. 3ed. The origin of life on the Earth. Oliver & Boyd, Edinburgh & London.

Parke, E. C. (2014). Flies from meat and wasps from trees: Reevaluating Francesco Redi’s spontaneous generation experiments. Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences, 45, 34–42.

Parmon, V. N. (2008). The Prebiotic Phase of the Origin of Life as Seen by a Physical Chemist. En Biosphere Origin and Evolution (pp. 89–101). Springer.

Parmon, V., & Snytnikov, V. (2002). The first Step of Evolution from the View Point of chemical Catalysis. En 34th COSPAR Scientific Assembly (Vol. 34, p. 489).

Peretó, J., Bada, J. L., & Lazcano, A. (2009). Charles Darwin and the origin of life. Origins of Life and Evolution of Biospheres, 39(5), 395–406.

Piras, F. M., Nergadze, S. G., Poletto, V., Cerutti, F., Ryder, O. A., Leeb, T., … Giulotto, E. (2009). Phylogeny of horse chromosome 5q in the genus Equus and centromere repositioning. Cytogenetic and genome research, 126(1–2), 165–172.

Pollard, T. D., Earnshaw, W. C., Lippincott-Schwartz, J., & Johnson, G. T. (2017). Cell Biology (3a ed.). Elsevier.

Reece, J. B., Urry, L. A., Wasserman, S. A., Cain, M. L., Minorsky, P. V, & Jackson, R. B. (2014). Campbell Biology (10a ed.). Pearson Higher Ed.

Reisner, J. H. (1989). An early history of the electron microscope in the United States. En Advances in Electronics and Electron Physics (Vol. 73, pp. 133–231). Elsevier.

Rieppel, O. (2011). Ernst Haeckel (1834–1919) and the monophyly of life. Journal of Zoological Systematics and Evolutionary Research, 49(1), 1–5.

Roll-Hansen, N. (1979). Experimental method and spontaneous generation: the controversy between Pasteur and Pouchet, 1859–64. Journal of the history of medicine and allied sciences, 34(3), 273–292.

Roll-Hansen, N. (2000). The application of complementarity to biology: From Niels Bohr to Max Delbrück. Historical studies in the physical and biological sciences, 417–442.

Ruestow, E. G. (1984). Leeuwenhoek and the campaign against spontaneous generation. Journal of the History of Biology, 17(2), 225–248.

Sadava, D., Berenbaum, M., & Hillis, D. (2014). Life the Science of Biology (10a ed.). Sinauer & MacMillian.

Schatzki, S. C. (2014). The Microscope. American Journal of Roentgenology, 202(1), 246–247.

Schwann, T. (1839). Mikroskopische Untersuchungen über die Uebereinstimmung in der Struktur und dem Wachsthum der Thiere und Pflanzen: mit 4 Kupfertafeln. Reimer.

Simon, E. J., Dickey, J. L., & Reece, J. B. (2013). Essential biology (Pearson).

Skloot, R., & Turpin, B. (2010). The immortal life of Henrietta Lacks.

Solomon, E., Martin, C., Martin, D. W., & Berg, L. R. (2014). Biology (10a ed.). Cengage Learning.

Spaargaren, D. H. (1985). Origin of life: Oceanic genesis, panspermia or Darwin’s ‘warm little pond’? Experientia, 41(6), 719–727.

Starr, C., Evers, C., & Starr, L. (2013). Biology: Today and Tomorrow With Physiology (4a ed.). Brooks/Cole.

Strick, J. E. (2009a). Darwin and the origin of life: public versus private science. Endeavour, 33(4), 148–151.

Strick, J. E. (2009b). Sparks of life: Darwinism and the Victorian debates over spontaneous generation. Harvard University Press.

Takai, K., Nakamura, K., Toki, T., Tsunogai, U., Miyazaki, M., Miyazaki, J., … Horikoshi, K. (2008). Cell proliferation at 122 C and isotopically heavy CH4 production by a hyperthermophilic methanogen under high-pressure cultivation. Proceedings of the National Academy of Sciences, 105(31), 10949–10954.

Vlaardingerbroek, B. (2012). The Sorites Paradox,“Life,” and Abiogenesis. Evolution: Education and Outreach, 1–3.

Volkmann, H. (1966). Ernst Abbe and his work. Applied optics, 5(11), 1720–1731.

Weaver, R. F. (2012). Molecular biology (5a ed.). McGraw-Hill Education.

Woese, C. R. (2004). A new biology for a new century. Microbiol. Mol. Biol. Rev., 68(2), 173–186.

Wolfe, C. T. (2007). The Return of Vitalism: Canguilhem and French Biophilosophy in the 1960s.

Zak, M., Zbilut, J. P., & Meyers, R. E. (2008). From instability to intelligence: complexity and predictability in nonlinear dynamics (Vol. 49). Springer Science & Business Media.