Structural and Thermodynamics Studies of Blastocladiella Emersonii Centrins

Centrin proteins are essential component of the microtubule organizing centers in a large range of organisms. They belong to the EF-Hand calcium binding proteins family e can be divided in two subfamilies: one defined by the green algae Chlamydomonas reinhardtii CrCenp, related to contractile functions and the other centrin of the yeast Saccharomices cerevisiae ScCdc31p, related to duplication of centrossome mitotic centers. Interesantly, Blastocladiella emersonii fungus posses two centrin forms in it genome: BeCen1 closely related to CrCenp and BeCen3 closely related to ScCdc31p. All other known fungus have only one form of centrin: ScCdc31p. With this curious finding, described in 2005, compared structural and thermodynamics studies between recombinant proteins BeCen1 and BeCen3 were performed, in attempt to identify relevant differences that could explain the presence of two forms of centrins in this fungus. Both centrins were expressed in E. coli and purified by chromatography resulting in 5mg/l protein yield. Structural analyses were performed with circular dichroism (CD), fluorescence, light scattering (DLS AND RALS), atomic force microscopy (AFM) and transmission electronic microscopy (TEM). Using isothermal titration calorimetry (ITC) thermodynamics parameters about the calcium binding were defined. Both showed alpha helix predominant content and structural physical-chemistry differences. After denaturation at 90°C and cooled overnight at 4°C, BeCen1 showed a CD spectrum consistent to a renaturation process; the calculated TM was 42°C and raised 4°C in the holo state; CD spectra were modified under calcium presence showing characteristics changes of calcium binding proteins; ITC data exhibited tree calcium binding motifs through an endothermic reaction and the presence of magnesium also showed conformational changes; From 40°C a aggregation process leading to filament formation was observed and visualized with AFM and TEM. After denaturation at 90°C and cooled overnight at 4°C, BeCen3 remained denaturated; Calculated TM was 49°C and raised 5°C in the holo state; CD spectra were modified under calcium presence showing characteristics changes of calcium binding proteins; ITC data exhibited only two calcium binding motifs through an exothermic reaction and the presence of magnesium also showed conformational changes; From 30°C BeCen3 already suffered a aggregation process forming filaments. In this study it was established the first expression and purification protocol for B. emersonii centrins, besides the structural and thermodynamic characterization of these proteins. This is the first study containing filaments images of the centrins of B. emersonii. These centrins showed important response differences in calcium and magnesium binding. All the obtained data are strong indications that the two centrins have distinct functions in the fungus. (AU)