For 3 billion years, one of the major carriers of information needed for life, RNA, has had a glitch that creates errors when making copies of genetic information. Researchers at The University of Texas at Austin have developed a fix that allows RNA to accurately proofread for the first time. The new discovery, published June 23 in the journal Science, will increase precision in genetic research and could dramatically improve medicine based on a person’s genetic makeup.
Certain viruses called retroviruses can cause RNA to make copies of DNA, a process called reverse transcription. This process is notoriously prone to errors because an evolutionary ancestor of all viruses never had the ability to accurately copy genetic material.
The new innovation engineered at UT Austin is an enzyme that performs reverse transcription but can also “proofread,” or check its work while copying genetic code. The enzyme allows, for the first time, for large amounts of RNA information to be copied with near perfect accuracy.
“We created a new group of enzymes that can read the genetic information inside living cells with unprecedented accuracy,” says Jared Ellefson, a postdoctoral fellow in UT Austin’s Center for Systems and Synthetic Biology. “Overlooked by evolution, our enzyme can correct errors while copying RNA.”