The binding of Ca2+ to actin monomer is monitored by the fluorescence of actin-bound auramine O.

The fluorescence of the cation auramine O was substantially enhanced by the presence of actin monomer. Titrations of this fluorescence enhancement indicated that actin monomer had two auramine O binding sites, each with a dissociation constant of approx. 20 microM. Calcium ions had no effect on the number of actin monomer-bound auramine O molecules or on the dissociation constant for that interaction. However, calcium ions increased the maximum change of fluorescence that occurs when actin monomer was fully saturated with auramine O. This effect of calcium was saturable and yielded a Ca2+ dissociation constant of 1.6 mM. It was concluded that auramine O bound to sites on actin monomer and independently monitored the binding of Ca2+ ion(s) to other site(s) on actin monomer. Further, the magnitude of the Ca2+ dissociation constant suggested that this Ca2+-binding site may be representative of the multiple bivalent cation-binding sites on actin monomer which are thought to be directly involved in actin polymerization. However, the exact relationship between these sites remains unclear.