viernes, 2 de septiembre de 2016


  1. Audesirk, T., Audesirk, G., & Byers, B. E. (2010). Biology: Life on Earth with Physiology (9th ed.). Pearson.
  2. Backshall, S. (2007). Venom. New Holland Publishers.
  3. Berg, J. M., Tymoczko, J. L., & Stryer, L. (2010). Biochemistry (7th ed.). Freeman.
  4. Bornberg-Bauer, E., & Alba, M. M. (2013). Dynamics and adaptive benefits of modular protein evolution. Current Opinion in Structural Biology, 23(3), 459–466.
  5. Bourgaud, F., Gravot, A., Milesi, S., & Gontier, E. (2001). Production of plant secondary metabolites: a historical perspective. Plant Science, 161(5), 839–851.
  6. Broom, A., Doxey, A. C., Lobsanov, Y. D., Berthin, L. G., Rose, D. R., Howell, P. L., … Meiering, E. M. (2012). Modular evolution and the origins of symmetry: reconstruction of a three-fold symmetric globular protein. Structure, 20(1), 161–171.
  7. Campbell, M. K., & Farrell, S. O. (2009). Biochemistry (6th ed.). USA: Thomsom Brooks/Cole.
  8. Chang, R. (2006). Chang’s “General Chemistry - Essential Concepts” (4th ed.). McGraw-Hill New York.
  9. Chen, X., Li, N., & Ellington, A. D. (2007). Ribozyme catalysis of metabolism in the RNA world. Chemistry & Biodiversity, 4(4), 633–655.
  10. Cushnie, T. P. T., Cushnie, B., & Lamb, A. J. (2014). Alkaloids: An overview of their antibacterial, antibiotic-enhancing and antivirulence activities. International Journal of Antimicrobial Agents, 44(5), 377–386.
  11. Davies, J. (2013). Specialized microbial metabolites: functions and origins. The Journal of Antibiotics, 66(7), 361–364.
  12. Fell, D. A., & Wagner, A. (2000). The small world of metabolism. Nature Biotechnology, 18(11), 1121–1122.
  13. Gottschalk, G. (2012). Bacterial metabolism. Springer Science & Business Media.
  14. Hedström, M., Ljungqvist, O., & Cederholm, T. (2006). Metabolism and catabolism in hip fracture patients: nutritional and anabolic intervention—a review. Acta Orthopaedica, 77(5), 741–747.
  15. Karp, G. C. (2013). Cell and Molecular Biology, Concepts and Experiments (7th ed.). USA: Wiley Online Library.
  16. Matamála, M., & Gonzalez, P. (1976). Química General. Cultural.
  17. McMurry, J., Castellion, M. E., & Ballantine, D. S. (2007). General, Organic and Biological chemestry, 5ed. Pearson; Prentice Hall.
  18. Moreno-Gómez, F., Duque, T., Fierro, L., Arango, J., Peckham, X., & Asencio-Santofimio, H. (2014). Descripción Histológica de las Glándulas Cutáneas de Phyllobates bicolor (Anura: Dendrobatidae) Usando Tres Técnicas de Tinción. International Journal of Morphology, 32(3), 882–888.
  19. Murray, R. K., Kennelly, P. J., Rodwell, V., Bender, D. A., Botham, K. M., & Weil, A. (2009). Harper’s Illustrated Biochemistry (28th ed.). McGraw-Hill Medical.
  20. Parmon, V. N. (2008). The Prebiotic Phase of the Origin of Life as Seen by a Physical Chemist. In Biosphere Origin and Evolution (pp. 89–101). Springer.
  21. Robertson, M. P., & Joyce, G. F. (2012). The origins of the RNA world. Cold Spring Harbor Perspectives in Biology, 4(5), a003608.
  22. Sadava, D., Berenbaum, M., & Hillis, D. (2014). Life the Science of Biology (10th ed.). Sinauer & MacMillian.
  23. Seigler, D. S. (2012). Plant secondary metabolism. Springer Science & Business Media.
  24. Singh, G. B. (2015). Introduction to Bioinformatics. In Fundamentals of Bioinformatics and Computational Biology (pp. 3–10). Springer.
  25. Smith, E., & Morowitz, H. J. (2004). Universality in intermediary metabolism. Proceedings of the National Academy of Sciences of the United States of America, 101(36), 13168–13173.
  26. Solomons, T. W. G., Fryhle, C. B., & Snyder, S. A. (2014). Organic chemistry (11th ed.). USA: Wiley & Sons.
  27. Stairs, C. W., Leger, M. M., & Roger, A. J. (2015). Diversity and origins of anaerobic metabolism in mitochondria and related organelles. Phil. Trans. R. Soc. B, 370(1678), 20140326.
  28. Timberlake, K. C. (2015). Chemistry An Introduction to General, Organic, and Biological Chemistry (15th ed.). USA: Pearson.
  29. van Dam, T. J. P., Townsend, M. J., Turk, M., Schlessinger, A., Sali, A., Field, M. C., & Huynen, M. A. (2013). Evolution of modular intraflagellar transport from a coatomer-like progenitor. Proceedings of the National Academy of Sciences, 110(17), 6943–6948.
  30. Wächtershäuser, G. (1988). Before enzymes and templates: theory of surface metabolism. Microbiological Reviews, 52(4), 452.
  31. Wink, M. (2013). Evolution of secondary metabolites in legumes (Fabaceae). South African Journal of Botany, 89, 164–175.

No hay comentarios:

Publicar un comentario