Epigenetics Research: Open Access
Open Access
+44 1478 350008
+44 1478 350008
Here we present a biophysical, structural, and computational analysis of the directed evolution of the human DNA repair protein O6-alkylguanine-DNA alkyltransferase (hAGT) into SNAP-tag, a self-labeling protein tag. Evolution of hAGT led not only to increased protein activity but also to higher stability, especially of the alkylated protein, suggesting that the reactivity of the suicide enzyme can be influenced by stabilizing the product of the irreversible reaction. Whereas wild-type hAGT is rapidly degraded in cells after alkyl transfer, the high stability of benzylated SNAP-tag prevents proteolytic degradation. Our data indicate that the intrinstic stability of a key α helix is an important factor in triggering the unfolding and degradation of wild-type hAGT upon alkyl transfer, providing new insights into the structure–function relationship of the DNA repair protein.
Short Communication: Advancements in Genetic Engineering
Short Communication: Advancements in Genetic Engineering
Review Article: Journal of Genetic Syndromes & Gene Therapy
Scientific Tracks Abstracts: Journal of Cell Science & Therapy
Accepted Abstracts: Journal of Cell Science & Therapy
Accepted Abstracts: Journal of Cell Science & Therapy