Jennifer Doudna

2015 Genetics Prize

Laureate Profile

The trans-Atlantic scientific collaboration of Emmanuelle Charpentier, PhD, of Umeå University in Sweden, and Jennifer Doudna, PhD, of the University of California, Berkeley, began in 2011 when they met at a scientific conference in Puerto Rico. They had been independently investigating the molecular mysteries of CRISPR systems, an unusual repeating sequence of DNA that enables bacteria to mount a successful defense against viral invaders. Doudna, a biochemist and structural biologist, had been studying CRISPR-Cas protein RNA complexes that protect bacteria from viral infection. Charpentier, a bacteriologist, geneticist and biochemist, was focusing on another type of CRISPR-Cas, the type II CRISPR-Cas system known as CRISPR-Cas9, had recently identified the critical role that trans-acting CRISPR RNA (tracrRNA) performs in processing of the CRISPR-mediated virus defense in the type II CRISPR-Cas system now known as the CRISPR-Cas9 system in a seminal paper published in Nature in 2011.

The following year, in a landmark 2012 paper in Science, Charpentier and Doudna showed exactly how the protein Cas9 “reads” genetic information on CRISPR sequences using its guiding RNA and uses that information to seek out and destroy the invading viral DNA, essentially by cutting it up. The two scientists also demonstrated that this cellular defense system had applications behind killing viruses, for the RNA could be engineered to attach to any spot on the genome, thus encouraging the Cas9 protein to cleave that spot. That made the CRISPR system an exceptionally powerful tool, for it could be customized to delete or add specific strands of DNA. The finding has revolutionized the field of molecular biology and genetics.