Trinitrophenylation of smooth muscle myosin

Reaction of thiol groups of gizzard myosin heavy chains with 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole

Chicken gizzard myosin treated with 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole (NBD-Cl) resulted in a 65% inhibition of the K(+)-ATPase (myosin ATP phosphohydrolase (actin translocating), EC 3.6.1.32) activity and 3.5 mol of the reagent was bound per 4.7 x 10(5) g protein. The labeling was limited to the heavy chain region and none of the light chains were lost. MgATP had no effect on the inactivation or labeling pattern. Thiolysis of NBD-myosin with dithiothreitol restored the K(+)-ATPase activity and concurrently, 1 mol of the NBD group was removed from the heavy chain region. Cysteine residues were modified in NBD-myosin at sites other than the active site when the enzyme activity was inhibited. There was a difference in the extent of NBD-Cl modification of gizzard myosin at 0.6 M KCl (6 S elongated state) when compared to that at 0.15 M KCl (10 S folded state). This was also seen in the heavy meromyosin-like chymotryptic fragments and tryptic fragments of NBD-myosin. The reagent NBD-Cl can detect changes in the conformation of gizzard myosin by way of its reaction with thiol groups of the heavy chain region.

Purification of smooth-muscle myosin free of calmodulin and myosin light-chain kinase. Susceptibility to oxidation

Smooth-muscle myosin purified as described by Persechini & Hartshorne [(1983) Biochemistry 22, 470-476] contains trace amounts of calmodulin and myosin light-chain kinase, which can be removed by Ca2+-dependent hydrophobic-interaction chromatography followed by calmodulin-Sepharose affinity chromatography. The resultant column-purified myosin exhibits properties similar to those of the non-purified myosin, e.g. actin activation of the Mg2+-ATPase requires Ca2+/calmodulin-dependent phosphorylation of the two 20 kDa light chains. However, unlike the non-purified myosin, the column-purified myosin undergoes a time-dependent transition to a form which no longer requires phosphorylation for actin activation of the myosin Mg2+-ATPase. This transition is identified as a time-dependent change in conformation of the column-purified myosin from a 10 S to 6 S form and is caused by slow oxidation of the column-purified myosin, since it could be prevented by storage under N2 and reversed by 5 mM-dithiothreitol.

Characterization of the fluorescein isothiocyanate-reactive site of gizzard myosin ATPase

We describe the reaction of fluorescein 5'-isothiocyanate with gizzard myosin, and investigate the effect of this fluorescent modification on ATPase activities. Changes in the ATPase activities upon modification occur rapidly, paralleling the reaction of 'fast reacting lysine residues' during the fast phase of the reaction. The loss in the ATPase activity is linearly correlated with the extent of modification. About 90% of the ATPase activity is lost with the incorporation of 2.6 mol of reagent per mol of myosin. The fluorescent label is mainly incorporated into the heavy chain of the myosin molecule. Using limited tryptic digestion of labeled S1, we have shown that the fluorescent dye remains in the 18 kDa fragment. The amino acid composition and the partial sequence of the peptide from the N-terminal end is presented. The results presented here suggest the participation of the 18 kDa peptide in the nucleotide binding domain of gizzard myosin.