Referencias bibliográficas de la fotosíntesis

 (Ciencias de Joseleg)(Biología)(Introducción y biología celular)(La fotosíntesis) (Introducción)(Generalidades de la fotosíntesis)(Física de la fotosíntesis)(Destino de los átomos en la fotosíntesis)(Reacciones de la luz 1, la oxidación del agua)(Reacciones de la luz 2, Cadena de transporte de electrones y fosforilación)(Introducción a las reacciones de la oscuridad)(Etapa de fijación de carbono en las plantas C3)(Etapa de fijación de carbono en las plantas CAM y C4)(Etapa de regeneración de la RuBP)(Etapa de síntesis de carbohidratos)(Evolución de la fotosíntesis)(Referencias bibliográficas)(Versión documento word)

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Benson, A A, Bassham, J. A., Calvin, M., Goodale, T. C., Haas, V. A., & Stepka, W. (1950). The path of carbon in photosynthesis. V. Paper chromatography and radioautography of the products1. Journal of the American Chemical Society, 72(4), 1710–1718.

Benson, Andrew A, Bassham, J. A., Calvin, M., Hall, A. G., Hirsch, H., Kawaguchi, S., … Tolbert, N. E. (1952). The Path of Carbon in Photosynthesis, XV. Ribulose and Sedoheptulose. Lawrence Berkeley National Laboratory.

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Blankenship, R. E. (2010). Early evolution of photosynthesis. Plant Physiology, 154(2), 434–438.

Blankenship, R. E., & Hartman, H. (1998). The origin and evolution of oxygenic photosynthesis. Trends in Biochemical Sciences, 23(3), 94–97.

Brack, A. (1998). The molecular origins of life: assembling pieces of the puzzle. Cambridge University Press.

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Calvin, M., Bassham, J. A., Benson, A. A., Lynch, V., Ouellet, C., Schou, L., … Tolbert, N. E. (1950). The path of carbon in photosynthesis. X. Carbon dioxide assimilation in plants. Lawrence Berkeley National Laboratory.

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Cardona, T., Murray, J. W., & Rutherford, A. W. (2015). Origin and evolution of water oxidation before the last common ancestor of the Cyanobacteria. Molecular Biology and Evolution, msv024.

Carson, S. F., Ruben, S., Kamen, M. D., & Foster, J. W. (1941). Radioactive Carbon as an Indicator of Carbon Dioxide Utilization VI. On the Possibility of Carbon Dioxide Reduction via the Carboxylase System. Proceedings of the National Academy of Sciences, 27(10), 475–480.

Caspi, R., Altman, T., Billington, R., Dreher, K., Foerster, H., Fulcher, C. A., … Kubo, A. (2014). The MetaCyc database of metabolic pathways and enzymes and the BioCyc collection of Pathway/Genome Databases. Nucleic Acids Research, 42(D1), D459–D471.

Caspi, R., Billington, R., Ferrer, L., Foerster, H., Fulcher, C. A., Keseler, I. M., … Mueller, L. A. (2016). The MetaCyc database of metabolic pathways and enzymes and the BioCyc collection of pathway/genome databases. Nucleic Acids Research, 44(D1), D471–D480.

Caspi, R., Dreher, K., & Karp, P. D. (2013). The challenge of constructing, classifying, and representing metabolic pathways. FEMS Microbiology Letters, 345(2), 85–93.

COOMB, J., Baldry, C. W., & Bucke, C. (2016). C4 PHOTOSYNTHESIS. In Botany: Proceedings of the Fiftieth Anniversary Meeting of the Society for Experimental Biology (p. 177). Elsevier.

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

Emerson, R., & Arnold, W. (1932a). A separation of the reactions in photosynthesis by means of intermittent light. The Journal of General Physiology, 15(4), 391.

Emerson, R., & Arnold, W. (1932b). The photochemical reaction in photosynthesis. The Journal of General Physiology, 16(2), 191–205.

Foster, J. W., Carson, S. F., Ruben, S., & Kamen, M. D. (1941). Radioactive Carbon as an Indicator of Carbon Dioxide Utilization VII. The Assimilation of Carbon Dioxide by Molds. Proceedings of the National Academy of Sciences, 27(12), 590–596.

Fru, E. C., Rodríguez, N. P., Partin, C. A., Lalonde, S. V, Andersson, P., Weiss, D. J., … Konhauser, K. O. (2016). Cu isotopes in marine black shales record the Great Oxidation Event. Proceedings of the National Academy of Sciences, 201523544.

Furbank, R. T. (2016). Walking the C4 pathway: past, present, and future. Journal of Experimental Botany, erw161.

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Gaucher, C., Sial, A. N., & Frei, R. (2015). Chemostratigraphy of Neoproterozoic banded iron formation (BIF): types, age and origin. Chemostratigraphy: Concepts, Techniques and Applications. Elsevier, Amsterdam, 43.

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Govindjee, G., Nonomura, A., & Lichtenthaler, H. K. (2020). Remembering Melvin Calvin (1911–1997), a highly versatile scientist of the 20th century. Photosynthesis Research, 143(1), 1–11.

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Johnson, A., Romaniello, S. J., Reinhard, C., Garcia-Robledo, E., Revsbech, N. P., Canfield, D. E., … Anbar, A. D. (2015). Oxidative Weathering of Archean Sulfides: Implications for the Great Oxidation Event. In AGU Fall Meeting Abstracts.

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Kump, L. R., & Barley, M. E. (2007). Increased subaerial volcanism and the rise of atmospheric oxygen 2.5 billion years ago. Nature, 448(7157), 1033–1036.

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Pessarakli, M. (2016). Handbook of photosynthesis. CRC Press.

Planavsky, N. J., Asael, D., Hofmann, A., Reinhard, C. T., Lalonde, S. V, Knudsen, A., … Smith, A. J. B. (2014). Evidence for oxygenic photosynthesis half a billion years before the Great Oxidation Event. Nature Geoscience, 7(4), 283–286.

Raven, J. A., Andrews, M., & Quigg, A. (2005). The evolution of oligotrophy: implications for the breeding of crop plants for low input agricultural systems. Annals of Applied Biology, 146(3), 261–280.

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RicARdo, A., & Szostak, J. W. (2009). Origin of life on earth. Scientific American, 301(3), 54–61.

Ruben, S, & Kamen, M. D. (1941). Long-lived radioactive carbon: C 14. Physical Review, 59(4), 349.

Ruben, Samuel, Randall, M., Kamen, M., & Hyde, J. L. (1941). Heavy oxygen (O18) as a tracer in the study of photosynthesis. Journal of the American Chemical Society, 63(3), 877–879.

Ruvindy, R., White III, R. A., Neilan, B. A., & Burns, B. P. (2016). Unravelling core microbial metabolisms in the hypersaline microbial mats of Shark Bay using high-throughput metagenomics. The ISME Journal, 10(1), 183–196.

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