Press release -
New light-tuned chemical tools control processes in living cells
A research group at Umeå University has developed new advanced light-controlled tools that enable precise control of proteins in real time in living cells. This groundbreaking research opens doors to new methods for studying complex processes in cells and could pave the way for significant advances in medicine and synthetic biology.
“Cellular processes are complex and constantly change depending on when and where in the cell they occur. Our new chemical tool with light switches will make it easier to control processes in the cell and study how cells function in real time. We can also determine where we make such regulation with a resolution of micrometres within a cell or tissue”, says Yaowen Wu, professor in the Department of Chemistry at Umeå University.
The intricate choreography of what happens in a cell is based on the precise distribution and interaction of proteins over time and space. Controlling protein or gene function is a cornerstone of modern biological research. However, traditional genetic techniques such as CRISPR-Cas9 often operate on a longer time scale, which risks causing cells to adapt. In addition, the techniques lack the spatial and temporal precision required to study highly dynamic cellular processes.
To address these challenges, so-called chemo-optogenetic systems have emerged as powerful tools. These systems combine chemical molecules, optics, and genetically modified proteins to precisely control protein activities at specific locations in cells using light-sensitive small molecules. Professor Yaowen Wu’s lab is at the forefront of developing chemo-optogenetic systems.
Previously, Yaowen Wu’s lab introduced systems based on a type of molecular glue. These work by bringing two proteins close together to change the localization or activity of a protein. The molecular glues are activated or deactivated by light by removing or cleaving a light-sensitive group. Although these tools represented significant advances, they had limitations in their use and insufficient photo- and chemical stability.
In two new publications selected as hot papersin the journal Angewandte Chemie International Edition and Chemistry – A European Journal, researchers in the Wu lab have developed next-generation chemo-optogenetic tools based on photoswitchable molecular glues. These improve on previous systems and overcome limitations. Through the modified molecular design, these molecular glues can be turned “on” or “off” like a light switch using light of specific wavelengths, allowing for multiple activation cycles where the two different states either promote or inhibit protein function.
”The new modular design enables enormous versatility of the system with adaptable properties and more stability”, says Jun Zhang, staff scientist at the Department of Chemistry at Umeå University.
“In our experiments, we were able to demonstrate precise control over several processes in the cell, including protein function and localization, organelle positioning and protein levels”, says Laura Herzog, postdoctoral fellow at the Department of Chemistry at Umeå University.
About the scientific articles
1. Jun Zhang, Laura K. Herzog, Dale P. Corkery, Tzu-Chen Lin, Laura Klewer, Xi Chen, Xiaoyi Xin, Yaozong Li, Yao-Wen Wu: Modular Photoswitchable Molecular Glues for Chemo-optogenetic Control of Protein Function in Living Cells, Angewandte Chemie International Edition, 2025, e202416456. https://doi.org/10.1002/anie.202416456
2. Jun Zhang, Laura K. Herzog, Shuang Li, Xi Chen, Yao-Wen Wu: Visible-light-switchable Molecular Glues for Reversible Control of Protein Function, Chemistry – A European Journal, 2025, e202403808. https://doi.org/10.1002/chem.202403808
For more information, please contact:
Yaowen Wu, Department of Chemistry at Umeå University
Phone : +4690-786 5531
Email: yaowen.wu@umu.se
Jun Zhang, Department of Chemistry at Umeå University
Mobile: +4670-019 93 56
Email: jun.zhang@umu.se
Laura Herzog, Department of Chemistry at Umeå University
Mobile: +4670-065 80 45
Email: laura.herzog@umu.se
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Umeå University is a comprehensive university and one of Sweden’s largest higher education institutions with around 38,000 students and 4,600 staff. We have a diverse range of high-quality educational programmes and research within all disciplinary domains and the arts. The University offers world-class educational and research environments and helps expand knowledge of global significance. This is where the groundbreaking discovery was made of the CRISPR-Cas9 gene-editing tool, which was awarded the Nobel Prize in Chemistry. At Umeå University, everything is just around the corner. Our tightly knit campus makes it easy to meet, collaborate and share knowledge, something that encourages a dynamic and open culture.
