Highly-Automated, High-Throughput Replication of Yeast-based Logic Circuit Design Assessments
Author:
Goldman Robert P.ORCID, Moseley Robert, Roehner Nicholas, Cummins Bree, Vrana Justin D., Clowers Katie J., Bryce Daniel, Beal JacobORCID, DeHaven Matthew, Nowak Joshua, Higa Trissha, Biggers Vanessa, Lee PeterORCID, Hunt Jeremy P., Mosqueda Lorraine, Haase Steven B., Weston Mark, Zheng George, Deckard AnastasiaORCID, Gopaulakrishnan Shweta, Stubbs Joseph F., Gaffney Niall I., Vaughn Matthew W.ORCID, Maheshri Narendra, Mikhalev Ekaterina, Bartley Bryan, Markeloff Richard, Mitchell Tom, Nguyen Tramy, Sumorok Daniel, Walczak Nicholas, Myers Chris, Zundel Zach, Hatch Benjamin, Scholz James, Colonna-Romano John, Mosqueda Lorraine
Abstract
AbstractWe describe an experimental campaign that replicated the performance assessment of logic gates engineered into cells of S. cerevisiae by Gander, et al. Our experimental campaign used a novel high throughput experimentation framework developed under DARPA’s Synergistic Discovery and Design (SD2) program: a remote robotic lab at Strateos executed a parameterized experimental protocol. Using this protocol and robotic execution, we generated two orders of magnitude more flow cytometry data than the original experiments. We discuss our results, which largely, but not completely, agree with the original report, and make some remarks about lessons learned.
Publisher
Cold Spring Harbor Laboratory
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