The cloning and testing on several constructs targeting the genomic DNA of Rho GTPase components, using the CRISPR-Cas9 genome editing technique in several cell lines. We produced a stable knock-in cell line for endogenous RhoA and performed cell migration experiments. This is the first time that endogenous RhoA is visualized! We found that acute perturbation of RhoA leads to an increase in cell migration speed and decrease of contractility in several subcellular areas. We are now exploring these results further using super resolution microscopy and more cell migration assays. After this the results will be published in peer-reviewed open access journals. Several stable cell lines containing knock ins of other Rho GTPase signaling components are in production. We will use a similar approach to verify the genomic identity of these cell lines and perform cell migration experiments and state of the art microscopy to assess the effects of acute perturbation of these proteins. The result of this progress was disseminated on various international conferences by posters and oral presentations (International Symposium on Measuring and Modelling Cell Migration - Vienna, 2018 ; International Meeting on Optical biosensors - Gent, 2018), as well as more local conferences (LS2 Annual meeting - Zurich, 2017-2018 ; Cytomeet Bern - Bern, 2017-2019). One of the poster presentations is attached for reference.