The Seattle Hub for Synthetic Biology has recently been opened to the public, showcasing cutting-edge technology and research in the field of synthetic biology. The collaboration between the Allen Institute, the Chan Zuckerberg Initiative, and the University of Washington aims to combine academic creativity with startup-style industrial execution. The hub’s primary goal is to build a “recorder mouse” that can track biological actions in a live mouse over time.
One of the key technologies being developed at the hub is a “DNA typewriter” technique that involves generating DNA barcodes for each cell to reflect biological activity. This method was introduced in a 2022 study and has since been adapted to record long-term cell signaling activity. The hope is that this foundational technology will lead to the development of new drugs and treatments, as well as applications in immunotherapy and drug response tracking in mice.
The potential applications of this technology are vast, including assessing the actions of therapeutic cells, tracking cell responses to drugs, and revolutionizing immunotherapy treatments. The Seattle Hub for Synthetic Biology plans to hire additional staff and expand its facilities in the coming years to accommodate its growing research team. The ability to recruit talent with industry experience and commercial acumen, combined with a commitment to open science, has been instrumental in the hub’s success.
The hub is currently divided into four research stations, each focusing on different aspects of the DNA typewriter technology. The Sense Team develops sensors to detect cell events, the Write Team records information into DNA, the Build Team engineers large DNA molecules, and the Read Team interprets edited DNA sequence readouts. By working together, these teams hope to advance the technology and expand its applications in various fields, ultimately leading to new discoveries in cellular processes and treatment options. Ultimately, the Seattle Hub for Synthetic Biology represents a new frontier in research and technology that has the potential to revolutionize the field of biology.