TY - JOUR T1 - Engineering a model cell for rational tuning of GPCR signaling JF - bioRxiv DO - 10.1101/390559 SP - 390559 AU - William M. Shaw AU - Hitoshi Yamauchi AU - Jack Mead AU - Glen-Oliver F. Gowers AU - David Ă–ling AU - Niklas Larsson AU - Mark Wigglesworth AU - Graham Ladds AU - Tom Ellis Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/08/13/390559.abstract N2 - G protein-coupled receptor (GPCR) signaling is the primary method eukaryotes use to respond to specific cues in their environment. However, the relationship between stimulus and response for each GPCR is difficult to predict due to diversity in natural signal transduction architecture and expression. Using genome engineering in yeast, we here constructed an insulated, modular GPCR signal transduction system to study how the response to stimuli can be predictably tuned using synthetic tools. We delineated the contributions of a minimal set of key components via computational and experimental refactoring, identifying simple design principles for rationally tuning the dose-response. Using four different receptors, we demonstrate how this enables cells and consortia to be engineered to respond to desired concentrations of peptides, metabolites and hormones relevant to human health. This work enables rational tuning of cell sensing, while providing a framework to guide reprogramming of GPCR-based signaling in more complex systems. ER -