Abstract
Early in the twentieth century it was shown that Mendel's laws apply to plants and animals and that genes reside on chromosomes. In the 1950s the double-helix model of DNA inaugurated the molecular biology era, which culminated at the end of the century with the publication of the human genome sequence. Although the early response to discoveries in genetics was slow in Mexico, the Green Revolution and other agricultural applications of genetic knowledge contributed greatly to economic welfare, and by the end of the millennium Mexican genetics had reached world-class status at several universities and research institutions.
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References
Basalla, G. The spread of western science. Science 156, 611–622 (1967).
Sagasti, F. & Guerrero, M. El Desarrollo Científico y Tecnológico en América Latina (Instituto para la Integración de América Latina, Buenos Aires, 1974) (in Spanish).
Inkster, I. Scientific enterprise and the colonial model: observations on Australian experience in historical context. Soc. Stud. Sci. 15, 677–704 (1985).
Stafford, R. in Australian Science in the Making (ed. Home, R. W.) 69–101 (Cambridge Univ. Press, Cambridge, 1988).
Stepan, N. Beginnings of Brazilian Science: Oswaldo Cruz, Medical Research and Policy, 1890–1920 (Science History Publications, New York, 1981).
Lafuente, A. & Sala Catalá, J . Ciencia colonial y roles profesionales en la América Española del Siglo XVIII. Quipu 6, 387–403 (1989) (in Spanish).
Vessuri, H. in The Uncertain Quest. Science, Technology and Development (eds Salomon, J. J., Sagasti, F. R. & Sachs-Jeantet, C.) 168–200 (United Nations Univ. Press, New York, 1994.
Home, R. W. & Kohlstedt, S. G. (eds) International Science and National Scientific Identity: Australia between Britain and America (Kluwer Academic, Dordrecht, 1991).
Petitjean, P. in Science and Empires: Historical Studies about Scientific Development and European Expansion (eds Petitjean, P., Jami, C. & Moulin, A. M.) (Kluwer Academic, Dordrecht, 1992).
Palladino, P. & Worboys, M. Science and imperialism. Isis 84, 91–102 (1993).
Palladino, P. Between craft and science: plant breeding, Mendelian genetics, and British universities, 1900–1920. Technol. Cult. 34, 300–323 (1993).
Paul, D. B. & Kimmelman, B. A. in The American Development of Biology (eds Rainger, R., Benson, K. & Maienschein, J.) 281–310 (Univ. Pennsylvania Press, Philadelphia, 1988).
Kimmelman, B. A. The American Breeders' Association: genetics and eugenics in an agricultural context, 1903–1913. Soc. Stud. Sci. 13, 163–204 (1983).
Kimmelman, B. A. A progressive era discipline: genetics at American agricultural colleges and experimental stations, 1900–1920. Thesis, Univ. Pennsylvania (1987).
Morgan, T. H., Sturtevant, A. H., Muller, H. J. & Bridges, C. B. The Mechanism of Mendelian Heredity (Holt and Co., New York, 1915).
Dunn, L. C. A Short History of Genetics (McGraw-Hill, New York, 1965).
Glick, T. F. in Missionaries of Science. The Rockefeller Foundation and Latin America (ed. Cueto, M.) 149–164 (Indiana Univ. Press, Bloomington, 1994).
Herrera, A. L. Nociones de Biología (Imprenta de la Secretaría de Fomento, Mexico, 1904; facsimile edn, Universidad Autónoma de Puebla, Mexico, 1992) (in Spanish).
Ledesma, I. & Barahona, A. The institutionalization of biology in Mexico in the early 20th century. The conflict between Alfonso Luis Herrera (1868–1942) and Isaac Ochoterena (1885–1950). J. Hist. Biol. 36, 285–307 (2003).
Anonymous. Los agrónomos Mexicanos. Revista Panorama Agrícola Nacional (PANAGRAL) 7, 8–9 (1963) (in Spanish).
Instituto Nacional de Investigaciones Agrícolas. Edmundo L. Taboada Ramírez: una Semblanza, 1906–1983 (Instituto Nacional de Investigaciones Agrícolas, Mexico, 1985) (in Spanish).
Taboada, E. Apuntes de Genética (Escuela Nacional de Agricultura/Chapingo, Mexico, 1938) (in Spanish).
Secretaría de Agricultura y Ganadería. Informe de Labores, 1951–1952 (Secretaría de Agricultura y Ganadería, Mexico, 1952) (in Spanish).
Cueto, M. Introduction in Missionaries of Science. The Rockefeller Foundation and Latin America (ed. Cueto, M.) (Indiana Univ. Press, Bloomington, 1994).
Harrar, J. Q. The Agricultural Program of the Rockefeller Foundation (Rockefeller Foundation, New York, 1956).
de Garay, A. L. Programa de Genética y Radiobiología. Informe de Labores 1960 (Comisión Nacional de Energía Nuclear, Archivo de Información, Biblioteca del ININ, Mexico, 1960) (in Spanish).
Barahona, A., Pinar, S. & Ayala, F. J. La Genética en México. Institucionalización de una Disciplina (Universidad Nacional Autónoma de México, Mexico, 2003) (in Spanish).
de Garay, A. L. Programa de Genética y Radiobiología. Informe de Labores 1965 (Comisión Nacional de Energía Nuclear, Archivo de Información, Biblioteca del ININ, Mexico, 1965) (in Spanish).
Sociedad Mexicana de Genética. Estatutos de la Sociedad Mexicana de Genética, A.C. (Sociedad Mexicana de Genética, Mexico, 1966) (in Spanish).
Bolivar, F. et al. Construction and characterization of new cloning vehicles. II. A multipurpose cloning system. Gene 2, 95–113 (1977).
Itakura, K. et al. Expression in Escherichia coli of a chemically synthesized gene for the hormone somatostatin. Science 198, 1056–1060 (1977).
Herrera-Estrella, L., Depicker, A., Van Montagu, M. & Schell, J. Expression of chimaeric genes transferred into plant cells using a Ti-plasmid-derived vector. Nature 303, 209–213 (1983).
Velázquez-Arellano, A. Cederbaum, S., Salamanca-Gómez, F., Rodríguez, M. & Velázquez, A. New frontiers in human genetics and their implications. Gaceta Médica Mexicana 122, 123–134 (1986).
Lisker, R. Estructura Genética de la Población Mexicana (Salvat Mexicana de Ediciones, Mexico, 1981) (in Spanish).
Olvera, O. et al. Population genetics of Mexican Drosophila. VI. Cytogenetic aspects of the inversion polymorphism in D. pseudoobscura. Evolution 33, 381–395 (1979).
Olvera, O. et al. Chromosomal and behavioral studies of Mexican Drosophila. III. Inversion polymorphism of D. pseudoobscura. J. Hered. 76, 258–262 (1985).
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We thank Daniel Piñero and two anonymous referees for their comments on previous versions.
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Glossary
- GREEN REVOLUTION
-
The great increase in production of grain crops (such as rice, corn and wheat) that was due to the introduction of high-yielding varieties, the use of pesticides and better management techniques.
- PHYTOTECHNOLOGY
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The scientific discipline and experimental practice that seeks to improve agricultural crops.
- PLASMOGENY
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Herrera's theory of the origin of 'protoplasm', the early form of life that initiated the processes of organic evolution.
- PRECOCITY
-
The tendency for plants to produce flowers or fruit earlier than normal.
- RADIOISOTOPES
-
Experimentally produced isotopes, which have an unstable excess of neutrons and are used to irradiate organisms, cells or other biological materials.
- TRANSFORMATION
-
Alteration of the genome of bacterial or other cells by their uptake of DNA purified from other organisms.
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Barahona, A., Ayala, F. The emergence and development of genetics in Mexico. Nat Rev Genet 6, 860–866 (2005). https://doi.org/10.1038/nrg1705
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DOI: https://doi.org/10.1038/nrg1705
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