1. Structural aspects and orientation mechanism of mitochondrial F1-adenosine triphosphatase. Evidence for a negative electric birefringence due to a permanent moment perpendicular to the long axes of the particle
- Author
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Gilbert Deléage, Christian Marion, and Bernard Roux
- Subjects
Birefringence ,Condensed matter physics ,Protein Conformation ,Swine ,Chemistry ,Rotational diffusion ,Biochemistry ,Mitochondria, Heart ,Kinetics ,Proton-Translocating ATPases ,Dipole ,Nuclear magnetic resonance ,Electric field ,Orientation (geometry) ,Moment (physics) ,Perpendicular ,Animals ,Particle ,Mathematics - Abstract
The electric birefringence technique was used to investigate the steady-state birefringence, the orientational relaxation time, and the orientation mechanism of pig heart mitochondrial F1 adenosine-5'-triphosphatase (F1-ATPase). The electrooptical properties of this enzyme in solution were studied as functions of pH, protein concentration, and applied electric field. The F1-ATPase exhibits a surprising negative electric birefringence with a specific Kerr constant of -1.5 X 10(-3) esu cgs. The field-independent relaxation time was found to be 0.65 +/- 0.05 microseconds, corresponding to a rotational diffusion constant of 2.55 X 10(5) s-1. The overall size and shape of F1-ATPase have been calculated from both translational and rotational diffusion constants. The enzyme may be assumed to be an oblate ellipsoid of revolution with dimensions of about 170 X 170 X 70 A. The orientation mechanism of F1-ATPase was analyzed by fitting experimental birefringence rising curves with theoretical rising functions. The ratio of the permanent to induced dipole moment is found to be very high; therefore, the birefringence of F1-ATPase is due to a strong permanent dipole moment in a direction perpendicular to the long axes of the particle. These particular electric properties can be explained by the oligomeric structure of the protein and seem likely to play a role in its mechanism of functioning.
- Published
- 1986
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