Scientists are using CRISPR to engineer the viruses that evolved to engineer bacteria Illustration Credit: Davian Ho |
CRISPR, the Nobel Prize-winning gene editing technology, is poised to have a profound impact on the fields of microbiology and medicine yet again.
A team led by CRISPR pioneer Jennifer Doudna and her longtime collaborator Jill Banfield has developed a clever tool to edit the genomes of bacteria-infecting viruses called bacteriophages using a rare form of CRISPR. The ability to easily engineer custom-designed phages – which has long eluded the research community – could help researchers control microbiomes without antibiotics or harsh chemicals, and treat dangerous drug-resistant infections. A paper describing the work was recently published in Nature Microbiology.
“Bacteriophages are some of the most abundant and diverse biological entities on Earth. Unlike prior approaches, this editing strategy works against the tremendous genetic diversity of bacteriophages,” said first author Benjamin Adler, a postdoctoral fellow in Doudna’s lab. “There are so many exciting directions here – discovery is literally at our fingertips!”
Bacteriophages, also simply called phages, insert their genetic material into bacterial cells using a syringe-like apparatus, then hijack the protein-building machinery of their hosts in order to reproduce themselves – usually killing the bacteria in the process. (They’re harmless to other organisms, including us humans, even though electron microscopy images have revealed that they look like sinister alien spaceships.)