Differential scanning calorimetric study of the complexes of modified myosin subfragment 1 with ADP and vanadate or beryllium fluoride

Summary The effects of various modifications of rabbit skeletal myosin subfragment 1 on thermal denaturation of subfragment 1 in ternary complexes with Mg-ADP and orthovanadate (V_i) or beryllium fluoride (BeF_x) have been studied by differential scanning calorimetry. It has been shown that specific modifications of SH₁ group of Cys-707 by different sulfhydryl reagents, trinitrophenylation of Lys-83, and reductive methylation of lysine residues promote the decomposition of the S1·ADP·V_i complex and change the character of structural transitions of the subfragment 1 molecule induced by the formation of this complex, but they have much less or no influence on subfragment 1 thermal stability in the S1·ADP·BeF_x complex. Thus, the differential scanning calorimetric studies on modified subfragment 1 preparations reveal a significant difference between S1·ADP·V_i and S1·ADP·BeF_x complexes. It is suggested that S1·ADP·V_i and S1·ADP·BeF_x complexes represent structural analogues of different transition states of the ATPase cycle, namely the intermediate states S1^**·ADP·P_i and S1^*·ATP, respectively. It is also proposed that during formation of the S1·ADP·V_i complex the region containing both Cys-707 and Lys-83 plays an important role in the spread of conformational changes from the active site of subfragment 1 ATPase throughout the structure of the entire subfragment 1 molecule. In such a case, the effects of reductive methylation of lysine residues on the subfragment 1 structure in the S1·ADP·V_i complex are related to the modification of Lys-83.