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The mutation Arg91Gly (R91G) in beta-tropomyosin (beta-TM) is known to cause distal arthrogryposis, a severe congenital disorder of muscle tissues. To elucidate how this mutation affects the structural properties of beta-TM, the thermal unfolding of beta-TM carrying mutation Arg91Gly was compared with that of the wild type protein. It was shown by differential scanning calorimetry and circular dichroism that this point mutation dramatically decreases the thermal stability of a significant part of beta-TM (about a half of the molecule). This part of the beta-TM molecule carrying mutation R91G unfolds at approximately 28 degrees C, i.e., at a much lower temperature than the other part of the molecule, which unfolds at approximately 40 degrees C. Based on the comparison of the data obtained by differential scanning calorimetry with measurements of temperature dependence of pyrene excimer fluorescence, whose decrease reflects the dissociation of two beta-TM chains in the region of pyrene-labeled Cys-36, this thermal transition was assigned to the N-terminal part of beta-TM. Interestingly, the destabilizing effect of the mutation spreads along the coiled-coil assuming a high extent of cooperativity within this part of the beta-TM molecule.

Type

Journal article

Journal

Biofizika

Publication Date

11/2008

Volume

53

Pages

917 - 921

Keywords

Arginine, Calorimetry, Differential Scanning, Circular Dichroism, Fluorescence, Glycine, Mutation, Protein Denaturation, Temperature, Tropomyosin