Measurement of Calcium Dissociation Rates from Troponin C in Rigor Skeletal Myofibrils
نویسندگان
چکیده
Ca2+ dissociation from the regulatory domain of troponin C may influence the rate of striated muscle relaxation. However, Ca(2+) dissociation from troponin C has not been measured within the geometric and stoichiometric constraints of the muscle fiber. Here we report the rates of Ca(2+) dissociation from the N-terminal regulatory and C-terminal structural domains of fluorescent troponin C constructs reconstituted into rabbit rigor psoas myofibrils using stopped-flow technology. Chicken skeletal troponin C fluorescently labeled at Cys 101, troponin C(IAEDANS), reported Ca(2+) dissociation exclusively from the structural domain of troponin C at ∼0.37, 0.06, and 0.07/s in isolation, in the presence of troponin I and in myofibrils at 15°C, respectively. Ca(2+) dissociation from the regulatory domain was observed utilizing fluorescently labeled troponin C containing the T54C and C101S mutations. Troponin [Formula: see text] reported Ca(2+) dissociation exclusively from the regulatory domain of troponin C at >1000, 8.8, and 15/s in isolation, in the presence of troponin I and in myofibrils at 15°C, respectively. Interestingly, troponin [Formula: see text] reported a biphasic fluorescence change upon Ca(2+) dissociation from the N- and C-terminal domains of troponin C with rates that were similar to those reported by troponin [Formula: see text] and troponin C(IAEDANS) at all levels of the troponin C systems. Furthermore, the rate of Ca(2+) dissociation from troponin C in the myofibrils was similar to the rate of Ca(2+) dissociation measured from the troponin C-troponin I complexes. Since the rate of Ca(2+) dissociation from the regulatory domain of TnC in myofibrils is similar to the rate of skeletal muscle relaxation, Ca(2+) dissociation from troponin C may influence relaxation.
منابع مشابه
A Structural Role for the Ca 2 ' - Mg 2 + Sites on Troponin Regulation of Muscle Contraction PREPARATION AND PROPERTIES OF TROPONIN C DEPLETED
Troponin C (TnC)-depleted myofibrils from rabbit skeletal muscle were prepared by consecutive washes of whole myofibrils with EDTA in solutions of low ionic strength, a method which has recently been described for the preparation of TnC (Cox, J. A., Compte, M., and Stein, E. A. (1981) Biochem. J. 195,205-211). Myofibrils treated in this manner exhibit a calcium independent loss of myofibrillar ...
متن کاملMutation of the high affinity calcium binding sites in cardiac troponin C.
Fast skeletal and cardiac troponin C (TnC) contain two high affinity Ca2+/Mg2+ binding sites within the C-terminal domain that are thought to be important for association of TnC with the troponin complex of the thin filament. To test directly the function of these high affinity sites in cardiac TnC they were systematically altered by mutagenesis to generate proteins with a single inactive site ...
متن کاملThe effect of troponin C removal on the Ca2+-sensitive binding of Mg2+ AMPPNP to myofibrils.
It was previously shown that when rabbit skeletal myofibrils are titrated with Mg2+ AMPPNP under conditions that result in the dissociation of cross-bridges from the thin filaments (i.e. 50% ethylene glycol, 0 degrees C), Ca2+-sensitive, biphasic binding is observed. These titrations have been repeated using myofibrils from which the troponin C has been selectively removed. The disappearance of...
متن کاملThe rates of Ca2+ dissociation and cross-bridge detachment from ventricular myofibrils as reported by a fluorescent cardiac troponin C.
The rate-limiting step of cardiac muscle relaxation has been proposed to reside in the myofilament. Both the rates of cross-bridge detachment and Ca(2+) dissociation from troponin C (TnC) have been hypothesized to rate-limit myofilament inactivation. In this study we used a fluorescent TnC to measure both the rate of Ca(2+) dissociation from TnC and the rate of cross-bridge detachment from seve...
متن کاملMyofilament calcium sensitivity does not affect cross-bridge activation-relaxation kinetics.
We employed single myofibril techniques to test whether the presence of slow skeletal troponin-I (ssTnI) is sufficient to induce increased myofilament calcium sensitivity (EC(50)) and whether modulation of EC(50) affects the dynamics of force development. Studies were performed using rabbit psoas myofibrils activated by rapid solution switch and in which Tn was partially replaced for either rec...
متن کامل