Evaluation of the influence of chromium and zinc ions on the collagenolysis process in solutions by the method of dynamic light scattering
Petrova A. V.
1, Sidorova A. V.
1, Sergeeva I. A.
1, Petrova G. P.
11Lomonosov Moscow State University, Moscow, Russia
Email: av.sukneva@physics.msu.ru, mitrofanova.mit@gmail.com, sergeeva@physics.msu.ru, petrova@phys.msu.ru
Using the method of dynamic light scattering, it was found that the rate of collagen cleavage under the influence of bacterial collagenase decreases by almost 4 times when protein molecules are doped with Cr3+ ions, and when the enzyme activator of Zn2+ ions is added, it increases by 1.3 times. Based on the experimental data, the reaction rate constants k1 were calculated. It was found that when collagen molecules are tanned with a chromium salt, it becomes more resistant to degradation in solutions containing zinc ions than in solutions with the addition of calcium ions, as we described in earlier works. Keywords: collagen type 1, bacterial collagenase, chromium chloride, zinc chloride, dynamic light scattering method, translational diffusion coefficient, hydrodynamic radius, reaction rate constant, collagenolysis, Clostridium histolyticum.
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