Effects of calcium and subunit interactions on surface accessibility of cysteine residues in cardiac troponin

Rabbit and bovine cardiac troponin (Tn) subunits and complexes were labeled with iodo14Cacetamide in the presence and absence of Ca2+ to determine the effect of tertiary and quaternary structure on exposure of Cys SH groups. This procedure serves both to map regions of subunit interaction and the effects of Ca2+-induced conformational change and to indicate which Cys residues should be useful attachment sites for spectroscopic or cross-linking probes. After being labeled, Tn subunits were purified by using reversed-phase HPLC and subjected to tryptic cleavage with or without prior citraconylation. Cys-containing fragments were isolated by RP-HPLC, and the percent labeling was determined. Cys-75 and -92 of TnI were completely accessible to iodoacetamide both when TnI was labeled alone or when in the TnC-TnI complex. Both residues were largely inaccessible when Tn or the TnI-TnT complex was labeled, suggesting burial in the TnI-TnT interface. In contrast, the Cys from the N-terminal region of bovine TnT was stoichiometrically labeled when TnT was labeled alone, in native Tn or in a troponin-tropomyosin complex. Cys-35 and -84 of TnC are located in the nonfunctional Ca2+ binding loop I of cardiac TnC and helix D, respectively. For TnC alone, the percent labelings of Cys-35 and -84 were 11% and 26%, respectively (minus Ca2+), and 16% and 63%, respectively (plus Ca2+). For TnC labeled within Tn, the percent labelings of Cys-35 and -84 were 20% and 52%, respectively (minus Ca2+), and 20% and 78%, respectively (plus Ca2+).(ABSTRACT TRUNCATED AT 250 WORDS)