Viruses inject DNA into bacteria in hopes that the bacteria will use that DNA to make more copies of the virus. Its hard for the bacteria to actually have a mechanism of figuring out what is its own DNA and what isn’t so the bacteria will usually just mindlessly make the stuff the DNA encodes, in this case that virus.

CRISPR is a system where some virus DNA is actually stored as part of the bacteria’s DNA in a special section. Then you have the CAS9 protein which kind of acts as police, it goes around and if it finds a floating piece of DNA out there, it will try to compare it to the DNA in the bacteria’s genes in the “enemy virus” section and if its a match, it snips the DNA.

Usually double stranded snips like this mean the end for the virus’s schemes, that DNA can no longer really be used for anything nefarious as its like building a house but with only half the blueprint, wont work.

However other organisms do have other proteins that can be used for double strand repair here. And if we inject some other DNA along side these proteins for double strand repair, there’s a good change the this additional DNA will be incorporated in the middle of the snip when the cut is fixed.

So with this system, we can generally design something that cuts at a specific place in DNA with CAS9 then add some more DNA in the middle and repair it. Up until this point we have been able to mess around with and make DNA in a lab setting with specific sequences but we could never actually get it into the genome of something alive. This solves that problem.