Viruses that infect bacteria are among the most abundant life forms on Earth. Indeed, our oceans, soils and potentially even our bodies would be overrun with bacteria were it not for bacteria-eating viruses, called bacteriophages, that keep the microbial balance of ecological¹ niches² in check. Now, a new study at Washington University School of Medicine in St. Louis suggests that bacteriophages made of RNA -- a close chemical cousin of DNA³ -- likely play a much larger role in shaping the bacterial⁴ makeup⁵ of worldwide habitats than previously⁶ recognized.

 

The research, published March 24 in PLOS Biology, has identified 122 new types of RNA bacteriophages in diverse ecological niches, providing an opportunity for scientists to define their contributions to ecology and potentially to exploit them as novel tools to fight bacterial infections, particularly those that are resistant⁷ to antibiotics⁸.

 

"Lots of DNA bacteriophages have been identified, but there's an incredible lack of understanding about RNA bacteriophages," explained senior author David Wang, PhD, associate professor of molecular⁹ microbiology. "They have been largely ignored - relatively¹⁰ few were known to exist, and for the most part, scientists haven't bothered to look for them. This study puts RNA bacteriophages on the map and opens many new avenues of exploration."

 

Wang estimates that of the more than 1,500 bacteriophages that have been identified, 99 percent of them have DNA genomes. The advent¹¹ of large-scale genome sequencing has helped scientists identify DNA bacteriophages in the human gut¹², skin and blood as well as in the environment, but few researchers have looked for RNA bacteriophages in those samples (doing so requires that RNA be isolated¹³ from the samples and then converted back to DNA before sequencing).

点击收听单词发音