Conformational intermediates in the folding of a coiled‐coil model peptide of the N‐terminus of tropomyosin and αα‐tropomyosin

Abstract

Circular dichroism was used to study the folding of αα‐tropomyosin and AcTM43, a 43‐residue peptide designed to serve as a model for the N‐terminal domain of tropomyosin. The sequence of the peptide is AcMDAIKKKMQMLKLDVENLLDRLEQLEADLKALEDRYKQLEGGC. The peptide appeared to form a coiled coil at low temperatures (<25 °C) in buffers with physiological ionic strength and pH. The folding and unfolding of the peptide, however, were noncooperative. When CD spectra were examined as a function of temperature, the apparent degree of folding differed when the ellipticity was followed at 222, 208, and 280 nm. Deconvolution of the spectra suggested that at least three component curves contributed to the CD in the far UV. One component curve was similar to the CD spectrum of the coiled‐coil α‐helix of native αα‐tropomyosin. The second curve resembled the spectrum of single‐stranded short α‐helical segments found in globular proteins. The third was similar to that of polypeptides in the random coil conformation. These results suggested that as the peptide folded, the α‐helical content increased before most of the coiled coil was formed.When the CD spectrum of striated muscle αα‐tropomyosin was examined as a function of temperature, the unfolding was also not totally cooperative. As the temperature was raised from 0 to 25 °C, there was a decrease in the coiled coil and an increase in the conventional α‐helix type spectrum without formation of random coil. The major transition, occurring at 40 °C, was a cooperative transition characterized by the loss of all of the remaining coiled coil and a concomitant increase in random coil.