Engineered cells are a high-value genetic asset that is key to many fields, including biotechnology, medicine, aging, and ...
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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 ...
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Researchers develop DNA encryption to secure engineered cells from tampering
In April 2026, a team of bioengineers at the Georgia Institute of Technology unveiled a genetic security system that works ...
Existing gene-editing technologies have led to significant advances in both medicine and food production. However, momentum appears to be slowing, particularly in health applications, as early hype is ...
(Nanowerk News) A team of Chinese researchers led by Prof. GAO Caixia from the Institute of Genetics and Developmental Biology of the Chinese Academy of Sciences has developed two new genome editing ...
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 ...
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