CRISPR’s unprecedented ability to edit genetic code will make possible a new generation of medical treatments. Credit Illustration by Todd St. John |
Zhang decided
to become a biological engineer, forging tools to repair the broken
genes that are responsible for many of humanity’s most intractable
afflictions. The following year, he returned to Harvard, as a member of
the Society of Fellows, and became the first scientist to use a modular
set of proteins, called TALEs, to control the genes of a
mammal. “Imagine being able to manipulate a specific region of DNA . . .
almost as easily as correcting a typo,” one molecular biologist wrote,
referring to TALEs, which stands for transcription
activator-like effectors. He concluded that although such an advance
“will probably never happen,” the new technology was as close as
scientists might get.
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