Synthetic Biology: opportunities for Chilean bioindustry and education

• Fernán Federici ^[1] ; Timothy J Rudge ^[1] ; Bernardo Pollak ^[2] ; Jim Haseloff ^[1] ; Rodrigo A Gutiérrez ^[2]
  1. [1] University of Cambridge Department of Plant Sciences
  2. [2] Pontificia Universidad Católica de Chile Departamento de Genética Molecular
• Localización: Biological Research, ISSN-e 0717-6287, ISSN 0716-9760, Vol. 46, Nº. 4, 2013, págs. 383-393
• Idioma: inglés
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• Resumen

  • In an age of pressing challenges for sustainable production of energy and food, the new field of Synthetic Biology has emerged as a promising approach to engineer biological systems. Synthetic Biology is formulating the design principles to engineer affordable, scalable, predictable and robust functions in biological systems. In addition to efficient transfer of evolved traits from one organism to another, Synthetic Biology offers a new and radical approach to bottom-up engineering of sensors, actuators, dynamical controllers and the biological chassis they are embedded in. Because it abstracts much of the mechanistic details underlying biological component behavior, Synthetic Biology methods and resources can be readily used by interdisciplinary teams to tackle complex problems. In addition, the advent of robust new methods for the assembly of large genetic circuits enables teaching Biology and Bioengineering in a learning-by-making fashion for diverse backgrounds at the graduate, undergraduate and high school levels. Synthetic Biology offers unique opportunities to empower interdisciplinary training, research and industrial development in Chile for a technology that promises a significant role in this century's economy.