10.6084/m9.figshare.7612184.v1 Emily Kennedy Emily Kennedy Skyler Hebdon Skyler Hebdon Smita Menon Smita Menon Clay Foster Clay Foster Daniel Copeland Daniel Copeland Qingping Xu Qingping Xu Fabiola Janiak-Spens Fabiola Janiak-Spens Ann West Ann West Additional file 1: of Role of the highly conserved G68 residue in the yeast phosphorelay protein Ypd1: implications for interactions between histidine phosphotransfer (HPt) and response regulator proteins Springer Nature 2019 Two-component signal transduction Ypd1 HPt proteins Response regulator Protein-protein interactions Evolutionary conservation Phosphotransfer 2019-01-21 05:00:00 Figure https://springernature.figshare.com/articles/figure/Additional_file_1_of_Role_of_the_highly_conserved_G68_residue_in_the_yeast_phosphorelay_protein_Ypd1_implications_for_interactions_between_histidine_phosphotransfer_HPt_and_response_regulator_proteins/7612184 Figure S1. Average active site models for Ypd1-G68X variants. Representative active sites calculated by averaging the last 100 unrestrained ps following energy minimization and relaxation. G68X substitutions are labelled, depicted in red spheres. The phosphoryl group and conserved active site residues are depicted in stick representation. The first panel depicts the BeF3− activated complex of Sln1-R1 and wild-type Ypd1 (PDB ID: 2R25) with BeF3− depicted in stick representation. (TIF 4327 kb)