A spectral probe mutant (F29W) of chicken skeletal muscle troponin C (TnC) has been prepared in which Phe-29 has been substituted by Trp. Residue 29 is at the COOH-terminal end of the A helix immediately adjacent to the Ca2+ binding loop of site I (residues 30-41) of the regulatory N domain. Since this protein is naturally devoid of Tyr and Trp, spectral features can be assigned unambiguously to the single Trp. The fluorescent quantum yield at 336 nm is increased almost 3-fold in going from the Ca(2+)-free state to the 4Ca2+ state with no change in the wavelength of maximum emission. Comparisons of the Ca2+ titration curves of the change in far-UV CD and fluorescence emission indicated that the latter was associated only with the binding of 2Ca2+ to the regulatory sites I and II. No change in fluorescence was detected by titration with Mg2+. The Ca(2+)-induced transitions of both the N and C domains were highly cooperative. Addition of Ca2+ also produced a red shift in the UV absorbance spectrum and a reduction in positive ellipticity as monitored by near-UV CD measurements. The fluorescent properties of F29W were applied to an investigation of five double mutants: F29W/V45T, F29W/M46Q, F29W/M48A, F29W/L49T, and F29W/M82Q. Ca2+ titration of their fluorescent emissions indicated in each case an increased Ca2+ affinity of their N domains. The magnitude of these changes and the decreased cooperativity observed between Ca2+ binding sites I and II for some of the mutants are discussed in terms of the environment of the mutated residues in the 2Ca2+ and modeled 4Ca2+ states.(ABSTRACT TRUNCATED AT 250 WORDS)
The interactions of troponin-I (Tn-I) with a variety of fragments spanning the length of the troponin-T (Tn-T) polypeptide chain have been reinvestigated at physiological ionic strength by affinity chromatographic, gel filtration, and circular dichroism methodologies. Strong binding was observed with fragment T2 (residues 159-259) mimicking that observed with whole Tn-T and Tn-I. Partial binding was seen with the shorter cyanogen bromide (CB) fragments of Tn-T in the order CB4 (residues 176-230) greater than CB6 (residues 239-259) or CB5 (residues 152-175). No interaction with Tn-I was observed with fragments (CB2, CB3, T1) encompassing residues 1-158 of Tn-T. Based on the present results and the work of others, the binding region for Tn-I includes residues 159-259 and perhaps extends into the highly helical CB2 region (residues 71-151) of Tn-T. No evidence has been obtained by ourselves or others for the interaction of the CB3 region (1-70) with Tn-I. A significant increase (11.6%) in alpha-helical content was observed when an equimolar amount of fragment T2 (residues 159-259) was mixed with Tn-I, a result similar to that seen with whole Tn-T and Tn-I.
The two globular N and C domains of chicken troponin C (TnC) are connected by an exposed alpha-helix (designated D/E; residues 86-94). Recombinant N (residues 1-90) and C (residues 88-162) domains containing either F29 or W29 and F105 or W105 have been engineered and expressed in Escherichia coli. These termination and initiation sites were chosen to minimize disruption of side-chain interactions between the D/E helix and other residues. W29 and W105 served as useful spectral probes for monitoring Ca(2+)-induced structural transitions of the N and C domains, respectively [Pearlstone et al. (1992) Biochemistry 31, 6545-6553; Trigo-Gonzalez et al. (1992) Biochemistry 31, 7009-7015]. By all criteria tested, the properties of the isolated F29W/N domain (1-90) were identical to those of the N domain in intact F29W. These included fluorescence emission spectra in the absence and presence of Ca2+/Mg2+, far-UV CD spectra, and Ca2+ affinity as monitored by fluorescence and ellipticity at 221 nm. Similar but not identical properties were observed for isolated F105W/C domain (88-162) and intact F105W. A summation of the far-UV CD spectra (+/- Ca2+) of the two domains was virtually superimposable on that of the intact protein. Of the total Ca(2+)-induced ellipticity change at 221 nm, 27% could be assigned to the N domain and 73% to the C domain. The data suggest a significant Ca(2+)-induced transition involving secondary structural elements of the N domain.(ABSTRACT TRUNCATED AT 250 WORDS)
The regions of troponin I (TnI) responsible for Ca 2؉ dependent activation and Ca 2؉ sensitivity of the actinmyosin subfragment 1-tropomyosin ATPase (acto-S1-TM) activity have been determined. A colorimetric ATPase assay at pH 7.8 has been applied to reconstituted skeletal muscle thin filaments at actin:S1:TM ratios of 6:1:2. Several TnI fragments (TnI-(
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