Proximity relationships between residue 117 of rabbit skeletal troponin-I and residues in troponin-C and actin

We used resonance energy transfer and site-directed photo-cross-linking to probe the Ca2+-dependent proximity relationships between residue 117 next t o the C-terminus of the inhibitory region in rabbit skeletal troponin-I (Tn I) and residues in troponin-C (TnC) and in actin. A mutant TnI that contain s a single cysteine at position 117 (I117) was constructed, and the distanc e between TnI residue 117 and TnC residue 98 was measured with the followin g results: for both the binary TnC-TnI complex and the ternary troponin com plex, this distance was 30 and 41 Angstrom in the presence and absence of C a2+, respectively. The distance between Tnl residue 117 and Cys374 of actin was 48 and 41 Angstrom in the presence and absence of Ca2+, respectively. Six additional distances from this Tnl residue to cysteines in TnC mutants were measured and used to localize this residue with respect to the crystal structure of TnC. The results show that in the presence of Ca2+ it is loca lized near the B and C helices of TnC's N-terminal domain. In the absence o f Ca2+ this residue moves away from this location by similar to8 Angstrom. Photo-cross-linking experiments show that I117 labeled with 4-maleimidobenz ophenone photo-crosslinked to TnC but not to actin in both the presence and absence of Ca2+. Taken together these results provide independent experime ntal support for the proposal (Y. Luo, J. L. Wu, B. Li, K. Langsetmo, J. Ge rgely, and T. Tao, 2000, J. Mol. Biol. 296:899-910) that upon Ca2+ removal the region comprising Tnl residues 114-125 triggers the movements of residu es 89-113 and 130-150 toward actin, but does not itself interact with actin .