A Fourth-Generation DNA Base Editor Could Replace CRISPR – Futurism

Posted: September 4, 2017 at 10:42 pm

CRISPR: The Next Generation

The latest news in genetic science has been dominated by the CRISPR/Cas9 technique over the past fiveyears. But a new fourth-generation DNA base editor could see CRISPR dethroned, according to a recent study published in Science Advances.

The fourth-generation base editor a tool used to modify the building blocks of genetic code, only now with an inhibitor added to protect DNA from accidental changes heightens editing accuracy and reduces unintentional DNA changes, which occur with current base-editing technologies.

DNA is a series of base pairs, or nucleotides: adenine, thymine, guanine and cytosine, called A-T-G-C for short. When CRISPR converts a C:G base pair to a T:A pair, sometimes it inadvertently changes the C:G base pair to a G:C or A:T base pair. Thismight seem like an insignificant mess of letters, but on the genetic level, even a single mistaken nucleotide can have devastating consequences for an organism.

Approximately two-thirds of known human genetic variants associated with disease are point mutations, said study co-author David R. Liu, Harvard University Professor of Chemistry and Chemical Biology and Howard Hughes Medical Institute Investigator, in an email interview with Futurism.The fourth-generation base editors to my knowledge are the most effective forms of these molecular machines that can directly correct certain types of point mutations.

Liu, co-author Alexis Komor, and their colleagues found that the number of undesired editing products depends on the level of a cutting enzyme called uracil N-glycosylase (UNG). Uracil is one of the four base pairs found in RNA, which is involved in the process of transcribing DNA so that its code is physically expressed by the organism.

Mechanistically, it made sense that [this]was leading to the undesired products we would occasionally observe, Liu explained. The teamhad a hunch that UNG, which initiates base excision repair at uracils, might be the culprit. Indeed, when we performed base editing in cells lacking UNG, essentially all undesired product formation went away.

Komoret al. then designed a fourth-generation base editor combined with an inhibitor, called BE4, which blocks UNG from cutting and altering DNA inadvertently. BE4 shuts down the cellular troublemaker (UNG) more effectively than our previous base editors, which results in higher efficiency of C to T base editing, and also fewer undesired products, said Liu.

Using BE4 formed with the bacteriaStreptococcus pyogenes, this base editing procedure increased the efficiency of swapping C:G to T:A by 50 percent, while halving the frequency of undesired byproducts. Click to View Full Infographic

This comes at a time when the number of incredible things CRISPR is doing extends beyond the medical field: into ecology, with the possibility of artificially designing algae to create a more efficient biofuel, and national security, with the U.S. Advanced Research Projects Agency (DARPA) investing $65 million in a project called Safe Genes.The DARPA Safe Genes program is very forward-thinking and focused on important issues including safest practices for genome editing, as well as helping to advance these technologies to realize their full potential, commented Liu.

Ultimately, the optimum balance lies in protecting the public with restrictions on gene editing technology, but not implementing so many that it decreases the number and diversity of efforts to use these technologies for the public good, Liu said.

For a nominal charge, Lius team has made the base editor available ona nonprofit genetic repository called Addgene: We definitely want the scientific community to use these tools.

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A Fourth-Generation DNA Base Editor Could Replace CRISPR - Futurism

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