Hysteresis during heating and cooling of hyaluronan solutions in water observed by means of ultrasound velocimetry

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angličtina

Ultrasound velocity was measured in hyaluronan solutions of various compositions at different temperatures. The velocity dependence on hyaluronan concentration at constant temperature (25 °C) was linear both in water and in 0.15 M NaCl regardless of hyaluronan molecular weight, confirming diluted-solution behavior. During cyclic heating and cooling, hysteresis on the temperature dependence of ultrasound velocity was observed in the range 30–55 °C in aqueous solutions for all molecular weights. In NaCl solutions, the hysteresis was suppressed and, in contrast to solutions in water where the velocity demonstrated a local maximum with temperature, the velocity decreased with increasing temperature. These findings were attributed to slow and hydration-linked hyaluronan conformation transitions during cooling in water, which were suppressed by the presence of salt, which makes hyaluronan's coiled conformation more compact.

Hyaluronan; Ultrasound velocimetry; Ultrasonic velocity; Compressibility; Apparent specific compressibility; Hysteresis

JUGL, A.; HURČÍKOVÁ, A.; PEKAŘ, M.

15. 12. 2020

0141-8130

INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES

165

Part B

Nizozemsko

2419

2424

6

https://www.sciencedirect.com/science/article/pii/S0141813020348170