@article {Dippel798140, author = {A. B Dippel and W. A. Anderson and J. H. Park and F. H. Yildiz and M.C. Hammond}, title = {Ratiometric bioluminescent sensors towards in vivo imaging of bacterial signaling}, elocation-id = {798140}, year = {2019}, doi = {10.1101/798140}, publisher = {Cold Spring Harbor Laboratory}, abstract = {Second messenger signaling networks allow cells to sense and adapt to changing environmental conditions. In bacteria, the nearly ubiquitous second messenger molecule cyclic di-GMP coordinates diverse processes such as motility, biofilm formation, and virulence. In bacterial pathogens, these signaling networks allow the bacteria to survive changing environment conditions that are experienced during infection of a mammalian host. While studies have examined the effects of cyclic di-GMP levels on virulence in these pathogens, it has previously not been possible to visualize cyclic di-GMP levels in real time during the stages of host infection. Towards this goal, we generate the first ratiometric, chemiluminescent biosensor scaffold that selectively responds to c-di-GMP. By engineering the biosensor scaffold, a suite of Venus-YcgR-NLuc (VYN) biosensors is generated that provide extremely high sensitivity (KD \< 300 pM) and large BRET signal changes (up to 109\%). As a proof-of-concept that VYN biosensors can image cyclic di-GMP during host infection, we show that the VYN biosensors function in the context of a tissue phantom model, with only \~{}103-104 biosensor-expressing cells required for the measurement. Furthermore, the stable BRET signal suggests that the sensors could be used for long-term imaging of cyclic di-GMP dynamics during host infection. The VYN sensors developed here can serve as robust in vitro diagnostic tools for high throughput screening, as well as genetically encodable tools for monitoring the dynamics of c-di-GMP in live cells, and lay the groundwork for live cell imaging of c-di-GMP dynamics in bacteria during host infection, and other complex environments.}, URL = {https://www.biorxiv.org/content/early/2019/10/08/798140}, eprint = {https://www.biorxiv.org/content/early/2019/10/08/798140.full.pdf}, journal = {bioRxiv} }