Larsson, E. M.; Wang, O. Y.; Murray, R. M.

Xenorhabdus griffiniae is a bacterium that lives inside the intestine of the entomopathogenic nematode Steinernema hermaphroditum and partners with the nematode to infect and kill insect larvae in soil. The construction of gene circuits, like reporters, in X. griffiniae would provide tools to study and better understand the symbiotic relationship it has with its host. However, because X. griffiniae is not a model organism, information about gene circuit construction in X. griffiniae is limited. We develop and characterize a DNA part library similar to the CIDAR MoClo extension library for E. coli to allow more efficient construction of genetic circuits in X. griffiniae. TurboRFP expressing strains with different constitutive Anderson promoters and different ribosome binding sites (RBS) were constructed to quantify promoter and RBS strengths in X. griffiniae. Furthermore, two fluorescent proteins sfGFP and sfYFP, as well as the bioluminescent luxCDABE operon were added to the part library and successfully expressed in X. griffiniae. We then used the characterized parts to build and characterize IPTG inducible constructs.