| Controlling protein stability with SULI, a highly sensitive tag for stabilization upon light induction |
| Author |
Mao, MW; Qian, YJ; Zhang, WY; Zhou, SY; Wang, ZF; Chen, XJ; Yang, Y |
| Journal |
NATURE COMMUNICATIONS |
| Pub Year |
2023 |
| Type |
Article |
| Abstract |
Optogenetics tools for precise temporal and spatial control of protein abundance are valuable in studying diverse complex biological processes. In the present study, we engineer a monomeric tag of stabilization upon light induction (SULI) for yeast and zebrafish based on a single light-oxygen-voltage domain from Neurospora crassa. Proteins of interest fused with SULI are stable upon light illumination but are readily degraded after transfer to dark conditions. SULI shows a high dynamic range and a high tolerance to fusion at different positions of the target protein. Further studies reveal that SULI-mediated degradation occurs through a lysine ubiquitination-independent proteasome pathway. We demonstrate the usefulness of SULI in controlling the cell cycle in yeast and regulating protein stability in zebrafish, respectively. Overall, our data indicate that SULI is a simple and robust tool to quantitatively and spatiotemporally modulate protein levels for biotechnological or biomedical applications. Tools for the spatiotemporal control of protein abundance are valuable in studying diverse complex biological processes. Here, authors engineered a protein tag which is stabilized upon light induction but which quickly degrades the protein of interest in the dark, demonstrating control of protein stability in yeast and zebrafish. |
| Issue |
14 |
| Volume |
14 |
| SCI |
16.6 |
