Date: 4.10.2019
In the battle against antibiotic resistance, many scientists have been trying to deploy naturally occurring viruses called bacteriophages that can infect and kill bacteria.
Bacteriophages kill bacteria through different mechanisms than antibiotics, and they can target specific strains, making them an appealing option for potentially overcoming multidrug resistance. However, quickly finding and optimizing well-defined bacteriophages to use against a bacterial target is challenging.
In a new study, MIT biological engineers showed that they could rapidly program bacteriophages to kill different strains of E. coli by making mutations in a viral protein that binds to host cells. These engineered bacteriophages are also less likely to provoke resistance in bacteria, the researchers found.
"As we're seeing in the news more and more now, bacterial resistance is continuing to evolve and is increasingly problematic for public health," says Timothy Lu, an MIT associate professor of electrical engineering and computer science and of biological engineering. "Phages represent a very different way of killing bacteria than antibiotics, which is complementary to antibiotics, rather than trying to replace them."
The researchers created several engineered phages that could kill E. coli grown in the lab. One of the newly created phages was also able to eliminate two E. coli strains that are resistant to naturally occurring phages from a skin infection in mice.
Gate2Biotech - Biotechnology Portal - All Czech Biotechnology information in one place.
ISSN 1802-2685
This website is maintained by: CREOS CZ
© 2006 - 2024 South Bohemian Agency for Support to Innovative Enterprising (JAIP)
Interesting biotechnology content:
Biotechnology organizations - Biotech research institute, company, university, ..
ScienceWeek - Biotechnology Science since 1997
Unique mRNA delivery method could fix faulty genes before birth
At-home stress testing possible, thanks to nanoparticles