Reaction of myosin with salicylaldehyde I. The effect of salicylaldehyde on the physicochemical properties of myosin

The specificity and nature of the reaction between salicylaldehyde and myosin and the effect of salicylalation on the molecular parameters of myosin were studied. The following observations were made. 1. 1. The reaction of salicylaldehyde with the lysyl residues of myosin is specific, since no salicylaldehyde is bound if the lysyl residues of myosin are trinitrophenylated. 2. 2. Salicylaldehyde is bound by myosin through the formation of an azomethine linkage (Schiff's base). This was established from the measured difference absorption spectrum of the myosin-salicylaldehyde complex. 3. 3. Three groups of lysyl residues can be distinguished with respect to the reaction with salicylaldehyde, namely, (a) residues with high association constant (K_ass = 1.8 ± 0.9·10⁵ M^-1), (b) residues with moderate association constant (K_ass = 2.2·10³ M^-1) and (c) residues that react with salicylaldehyde only after the denaturation of the protein. Their numbers could be estimated as 10 ± 5, 130 ± 5 and 260 ± 5 per mole myosin, respectively. The first group of residues was found to be absent from heavy and light meromyosin, the proteolytic fragments of myosin. 4. 4. The reaction is reversible. The complex formation rate constant, evaluated from the formula for second order reaction, is 2.2 sec^-1·M^-1, and the decomposition rate constant for first order reaction is 1.1·10^-3 sec^-1 at 22°. 5. 5. The reaction is pH dependent, the reaction yield increasing at higher pH. 6. 6. The solubility of myosin at low ionic strength decreases with increasing degree of salicylalation at slightly alkaline pH. 7. 7. The intrinsic viscosity of myosin does not change on salicylalation. 8. 8. A second peak due to polymerization appears on the sedimentation profile of the protein if more than 70 lysyl residues are salicylalated per mole of myosin.