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Evaluation of the influence of chromium and zinc ions on the collagenolysis process in solutions by the method of dynamic light scattering
Russian version
DOI: 10.21883/EOS.2022.06.54701.23-22
Petrova A. V. 1, Sidorova A. V.1, Sergeeva I. A. 1, Petrova G. P. 1
1Lomonosov Moscow State University, Moscow, Russia
Email: av.sukneva@physics.msu.ru, mitrofanova.mit@gmail.com, sergeeva@physics.msu.ru, petrova@phys.msu.ru
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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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