IMAGE: Scientists have deciphered the structural and functional differences of a critical human protein that guards against cancer and bacterial and viral infections. The findings explain what sets the human form… view more
Credit: Wen Zhou, Harvard Medical School
The human body is built for survival. Each one of its cells is closely guarded by a set of immune proteins armed with nearly foolproof radars that detect foreign or damaged DNA.
One of the cells’ most critical sentinels is a “first responder” protein known as cGAS, which senses the presence of foreign and cancerous DNA and initiates a signaling cascade that triggers the body’s defenses.
The 2012 discovery of cGAS ignited a firestorm of scientific inquiry, resulting in more than 500 research publications, but the structure and key features of the human form of the protein continued to elude scientists.
Now, scientists at Harvard Medical School and Dana-Farber Cancer Institute have, for the first time, identified the structural and functional differences in human cGAS that set it apart from cGAS in other mammals and underlie its unique function in people.
A report on the team’s work, published July 12 in Cell, outlines the protein’s structural features that explain why and how human cGAS senses certain types
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