Acid-induced dimerization of skeletal troponin C.

We have investigated pH-dependent changes of the properties of troponin C from rabbit skeletal muscle. At pH 7.5 this protein is a monomer and at pH 5.2 it is a dimer. In contrast, bovine cardiac troponin C remains essentially monomeric at pH 5.2. Bovine brain calmodulin is not a dimer, but significantly aggregated at the same acidic pH. The dimerization of skeletal troponin C was demonstrated by low-speed (16,000 rpm) sedimentation equilibrium measurements carried out at 20 degrees C and by polyacrylamide gel electrophoresis under nondenaturing conditions. Dimer formation was significantly inhibited in the ultracentrifuge at rotor speeds of 30,000 and 40,000 rpm at 20 degrees C, and was completely prevented at a rotor speed of 40,000 rpm and 4 degrees C. This temperature and pressure dependence of dimerization strongly suggests that hydrophobic bonding is a major factor in promoting skeletal troponin C association at pH 5.2. The intramolecular distance between Met-25 and Cys-98 of rabbit skeletal troponin C deduced from fluorescence resonance energy transfer measurements increased by a factor of two upon lowering the pH from 7.5 to 5.2, indicating a pH-dependent transition in which the protein changed from a relatively compact conformation to an elongated conformation. The proton-induced increase in the energy transfer distance is related to the acid-induced dimerization of the protein.(ABSTRACT TRUNCATED AT 250 WORDS)