For decades, gene-editing science has been limited to making small, precise edits to human DNA, akin to correcting typos in the genetic code. Arc Institute researchers are changing that paradigm with ...
Hosted on MSN
Bridge recombinases, optimized for human cells, enable massive programmable DNA rearrangements
For decades, gene-editing science has been limited to making small, precise edits to human DNA, akin to correcting typos in the genetic code. Arc Institute researchers are changing that paradigm with ...
Researchers developed a new RNA sequencing strategy that can reveal how genetic variants disrupt gene function and improve the diagnosis of rare diseases. The study team demonstrated that this ...
Researchers from Children's Hospital of Philadelphia (CHOP) developed a new RNA sequencing strategy that can reveal how ...
Researchers developed STRIPE, a targeted long-read RNA sequencing tool that identifies disease-causing variants missed by ...
Researchers from Children's Hospital of Philadelphia (CHOP) developed a new RNA sequencing strategy that can reveal how ...
This figure depicts how bridge recombinases have a dual targeting capability that enable these systems to insert new genetic material, delete unwanted regions, or flip existing DNA segments all in a ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results