The Princess of Asturias Foundation
Sección de idiomas
Fin de la sección de idiomas
Sección de utilidades
Fin de la sección de utilidades
- The Foundation
- HM The King
- HRH The Princess of Asturias
- 2023 Special
- Princess of Asturias Awards
- Area of Communication and Media
- Music Department
- Exemplary Town of Asturias Award
- 2012 Special
- 2013 Special
- 2014 Special
- 2015 Special
- 2016 Special
- 2017 Special
- 2018 Special
- 2019 Special
- 2020 Special
- 2021 Special
- 2022 Special
-
Important: COVID-19
-
Terms of Use
You are in:
Laureates
Start of main content
Emmanuelle Charpentier and Jennifer Doudna
Princess of Asturias Award for Technical & Scientific Research 2015
At its meeting in Oviedo, the Jury for the 2015 Princess of Asturias Award for Technical and Scientific Research, made up of Arturo Álvarez-Buylla Roces, Juan Luis Arsuaga Ferreras, Lina Badimón Maestro, Juan Ignacio Cirac Sasturáin, Mara Dierssen Sotos, Luis Fernández-Vega Sanz, Cristina Garmendia Mendizábal, Álvaro Giménez Cañete, Bernardo Hernández González, Emilio Lora-Tamayo D’Ocón, José Antonio Martínez Álvarez, Amador Menéndez Velázquez, Ginés Morata Pérez, Enrique Moreno González, César Nombela Cano, Marta Sanz-Solé, Manuel Toharia Cortés, chaired by Pedro Miguel Echenique Landiríbar and with Vicente Gotor Santamaría acting as secretary, has unanimously agreed to grant the 2015 Princess of Asturias Award for Technical and Scientific Research jointly to the French researcher Emmanuelle Charpentier and the American researcher Jennifer Doudna for scientific advances that have led to the development of a technology that allows genes to be modified with great precision and simplicity in all types of cells, thus enabling changes that suppose the actual “editing of the genome”.
Both researchers studied how certain bacteria defend themselves against the viruses that infect them, destroying the DNA of these viruses after recognizing some of its specific features. Starting out from these findings, they united their efforts employing a ground-breaking approach that has enabled the development of what is known as the CRISPR-Cas system. This is a method of universal application based on the design of small molecules of RNA that guide the Cas9 enzyme to cleave DNA, thus allowing the modification of genes within cells. The application of this technology has rapidly expanded to many biological systems, resulting in a veritable revolution in Molecular Biology. The methodology allows the removal, activation, inactivation and even correction of any gene, leading to diverse applications in both basic research and in agriculture, livestock breeding and biomedicine. It thus paves the way for developing treatments for genetic diseases that currently lack effective therapies.
Oviedo, 28th May 2015
Photo Gallery
WATCH interactivEEnd of main content
Sección de utilidades
Fin de la sección de utilidades
- Legal document Legal document (Access key 8)
- | Privacy policy Privacy policy (Access key )
- | Social networks ???en.portal.pie.menu107.title???
- | Cookies ???en.portal.pie.menu110.title???
- | Site map Site Map (Access key 3)
- | Contact Contact (Access key )
- | XHTML 1.0
- | CSS 2.1
- | WAI 'AA
© Copyright 2024. FUNDACIÓN PRINCESA DE ASTURIAS
