Nina L. Golitsina scite author profile

Tropomyosin (Tm) bound to actin induces cooperative activation of actomyosin subfragment 1 (actin-S1) ATPase, observed as a sigmoid ATPase vs [S1] dependence. The activation is much steeper for gizzard muscle Tm (GTm) than for rabbit skeletal Tm (RSTm). To investigate if this greater cooperativity is due to increased communication between GTms along the thin filament, we studied effects of S1 binding on the state of actin-Tm using the fluorescence of pyrene-labeled Tm. Kinetic and equilibrium studies provided values for n, the apparent cooperative unit size [Geeves, M. A., and Lehrer, S. S. (1994) Biophys. J. 67, 273]. We report comparative studies of Tm-actin-S1 ATPase with values of n using GTm, RSTm, and 5aTm, a 1/7 shorter nonmuscle Tm from rat fibroblast cells [Pittenger, M. F., et al. (1994) Curr. Opin. Cell Biol., 6, 96]. 5aTm and GTm produce similar cooperative activation of actin-S1 ATPase and have similar n values that are 2-fold greater than RSTm, indicating a correlation between ATPase activation and n value. This appears to be due to the similarity of the C-terminal amino acid sequences of 5a and GTm which produce strong end-to-end interactions. The results are discussed in terms of a continuous flexible Tm strand on the actin filament.

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Effects of Two Familial Hypertrophic Cardiomyopathy-Causing Mutations on α-Tropomyosin Structure and Function

Golitsina

Greenfield

et al. 1997

Biochemistry

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Missense mutations in alpha-tropomyosin can cause familial hypertrophic cardiomyopathy. The effects of two of these, Asp175Asn and Glu180Gly, have been tested on the structure and function of recombinant human tropomyosin expressed in Escherichia coli. The F-actin affinity (measured by cosedimentation) of Glu180Gly was similar to that of wild-type, but Asp175Asn was more than 2-fold weaker, whether or not troponin was present. The mutations had no apparent effect on the affinity of tropomyosin for troponin. The mutations had a small effect on the overall stability (measured using circular dichroism) but caused increased local flexibility or decreased local stability, as evaluated by the higher excimer/monomer ratios of tropomyosin labeled with pyrene maleimide at Cys 190. The pyrene-labeled tropomyosins differed in their response to myosin S1 binding to the actin-tropomyosin filament. The conformations of the two mutants were different from each other and from wild-type in the myosin S1-induced on-state of the thin filament. Even though both mutant tropomyosins bound cooperatively to actin, they did not respond with the same conformational change as wild-type when myosin S1 switched the thin filament from the off- to the on-state.

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Ca2+-Dependent Binding of Calcyclin to Muscle Tropomyosin

Golitsina

Kordowska

Wang

et al. 1996

Biochemical and Biophysical Research Communications

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Nina L. Golitsina

Actin-Tropomyosin Activation of Myosin Subfragment 1 ATPase and Thin Filament Cooperativity. The Role of Tropomyosin Flexibility and End-to-End Interactions

Effects of Two Familial Hypertrophic Cardiomyopathy-Causing Mutations on α-Tropomyosin Structure and Function

Ca2+-Dependent Binding of Calcyclin to Muscle Tropomyosin

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