Abstract

The thermal stability of different solutions of collagen (Col), collagen mixed with glycerol (Col-G) and collagen mixed with 2-propanol (Col-P) was studied by differential scanning calorimetry (DSC), viscosity and fluorescence. The DSC and viscosity methods showed that glycerol increased the denaturation temperature of collagen about 2 °C, while 2-propanol decreased it about 2 °C. The values of intrinsic viscosity ([ η]) for Col, Col-G and Col-P were 21.67, 20.20 and 24.71 dl/g, respectively. Huggins coefficient ( k H) increased in the presence of glycerol and decreased in the presence of 2-propanol. It was suggested that glycerol promoted the dissolution of collagen molecular aggregates while 2-propanol enhanced the aggregation. Fluorescence spectra were investigated within the temperature ranging from 15 to 45 °C. By comparing the sign of peaks in the two-dimensional (2D) fluorescence correlation maps, the orders of peak response were ∼360, ∼410 > 297 nm for Col and Col-G, and 297 > ∼360, ∼410 nm for Col-P, respectively. These indicated that the respondences of tyrosine residues, excimer-like species and bityrosine on the perturbation of temperature were different in the presence of glycerol and 2-propanol.

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