Effect of ionic strength and arginine on aggregation of UV-irradiated muscle glycogen phosphorylase b

Effect of ionic strength and arginine on aggregation of UV-irradiated muscle glycogen phosphorylase b

In this work the effect of ionic strength and arginine on the kinetics of aggregation of UV-irradiated muscle glycogen phosphorylase b (UV-Phb) was studied using dynamic light scattering at 37 °C at various ionic strengths (0.02–0.7 M). Under these conditions the rate-limiting stage of the overall a...

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Veröffentlicht in:International journal of biological macromolecules 2018-10, Vol.118 (Pt A), p.1193-1202
Hauptverfasser: Eronina, Tatiana B., Mikhaylova, Valeriya V., Chebotareva, Natalia A., Shubin, Vladimir V., Kurganov, Boris I.
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Sprache:eng
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Animals
Arginine
Arginine - chemistry
Glycogen Phosphorylase, Muscle Form - chemistry
Ionic strength
Osmolar Concentration
Protein Aggregates - radiation effects
Rabbits
Thermal aggregation
Ultraviolet Rays
UV-irradiated muscle glycogen phosphorylase b
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container_end_page 1202
container_issue Pt A
container_start_page 1193
container_title International journal of biological macromolecules
container_volume 118
creator Eronina, Tatiana B.
Mikhaylova, Valeriya V.
Chebotareva, Natalia A.
Shubin, Vladimir V.
Kurganov, Boris I.
description In this work the effect of ionic strength and arginine on the kinetics of aggregation of UV-irradiated muscle glycogen phosphorylase b (UV-Phb) was studied using dynamic light scattering at 37 °C at various ionic strengths (0.02–0.7 M). Under these conditions the rate-limiting stage of the overall aggregation process is the structural reorganization of UV-Phb, which can be characterized by the first order rate constant kI. It was shown that an increase in NaCl concentration caused a decrease in the kI value, suggesting a slowdown of the UV-Phb structural reorganization. Circular dichroism data confirmed this conclusion. Arginine is widely used in biotechnology as an agent suppressing protein aggregation. However, arginine is a charged molecule, and, when studying the action of arginine on protein aggregation, the effects of ionic strength should be taken into account. To evaluate the effect of arginine, experiments were conducted at fixed values of ionic strength (0.15 M and 0.5 M). It was shown that at a low ionic strength arginine (0–0.13 M) accelerated the process of protein aggregation, whereas at higher ionic strength arginine (0–0.48 M) acted as an aggregation suppressor. •Effect of ionic strength and arginine on kinetics of UV-irradiated phosphorylase b aggregation has been analyzed at 37 °C.•UV-Phb structural reorganization, which is the rate-limiting aggregation stage, is retarded with increasing ionic strength.•At low ionic strength (I = 0.15 M) arginine (0–0.13 M) accelerates the process of UV-Phb aggregation.•At higher ionic strength (I = 0.5 M) arginine (0–0.48 M) acts as a suppressor of UV-Phb aggregation.
doi_str_mv 10.1016/j.ijbiomac.2018.06.185
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It was shown that at a low ionic strength arginine (0–0.13 M) accelerated the process of protein aggregation, whereas at higher ionic strength arginine (0–0.48 M) acted as an aggregation suppressor. •Effect of ionic strength and arginine on kinetics of UV-irradiated phosphorylase b aggregation has been analyzed at 37 °C.•UV-Phb structural reorganization, which is the rate-limiting aggregation stage, is retarded with increasing ionic strength.•At low ionic strength (I = 0.15 M) arginine (0–0.13 M) accelerates the process of UV-Phb aggregation.•At higher ionic strength (I = 0.5 M) arginine (0–0.48 M) acts as a suppressor of UV-Phb aggregation.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>30001605</pmid><doi>10.1016/j.ijbiomac.2018.06.185</doi><tpages>10</tpages></addata></record>
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subjects Animals
Arginine
Arginine - chemistry
Glycogen Phosphorylase, Muscle Form - chemistry
Ionic strength
Osmolar Concentration
Protein Aggregates - radiation effects
Rabbits
Thermal aggregation
Ultraviolet Rays
UV-irradiated muscle glycogen phosphorylase b
title Effect of ionic strength and arginine on aggregation of UV-irradiated muscle glycogen phosphorylase b
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