https://www.selleckchem.com/products/aminooxyacetic-acid-hemihydrochloride.html Binding of phosphorylated C0-C2 was also blocked by these compounds. That they specifically block binding was confirmed by an actin-C0-C2 time-resolved FRET (TR-FRET) binding assay. Isothermal titration calorimetry (ITC) and transient phosphorescence anisotropy (TPA) confirmed that these compounds bind to cMyBP-C, but not to actin. TPA results were also consistent with these compounds inhibiting C0-C2 binding to actin. We conclude that the actin-cMyBP-C fluorescence lifetime assay permits detection of pharmacologically active compounds that affect cMyBP-C-actin binding. We now have, for the first time, a validated high-throughput screen focused on cMyBP-C, a regulator of cardiac muscle contractility and known key factor in heart failure.Paramecium bursaria is a ciliate that harbors Chlorella-like unicellular green algae as endosymbionts. The relationship between the host P. bursaria and the endosymbiotic Chlorella is facultative; therefore, both partners can be cultured independently and re-combined to re-establish symbiosis, making this system suitable for studying algal endosymbiosis. However, despite many previous studies, cultivation of endosymbiotic Chlorella remains difficult, particularly on agar plates. Here we describe a simple agar plate method for efficiently isolating and culturing cells of the endosymbiotic alga Chlorella variabilis from an individual P. bursaria cell, by co-culturing them with yeast Saccharomyces cerevisiae. The co-culture with the yeast significantly improved the colony-forming efficiency of the alga on agar. Growth assays suggest that the main role of the co-cultured yeast cells is not to provide nutrients for the algal cells, but to protect the algal cells from some environmental stresses on the agar surface. Using the algal cells grown on the plates and a set of specially designed primers, direct colony PCR can be performed for screening of multiple end