Article ID Journal Published Year Pages File Type
70692 Journal of Molecular Catalysis B: Enzymatic 2009 6 Pages PDF
Abstract

Porcine trypsin was glycated with glucose and covalently immobilized through its carboxyl groups onto aminated glass beads to produce porcine immobilized glycated-trypsin (IGT). On incubation at 60 °C and pH 8, IGT retained its full activity for 8 h and 50% of its activity after 24 h. In comparison, under the same conditions porcine native trypsin lost 80% of its activity in 2 h and was completely inactivated in less than 4 h. The rate of autolysis of porcine glycated-trypsin at 37 °C was 40% that of native trypsin and with IGT there was no significant autolysis, even at elevated temperatures as high as 60 °C. Glycation significantly increased the stability of trypsin and immobilization also significantly increased the stability of trypsin. The remarkable thermostability of IGT is attributed to a synergistic effect when these two modifications are combined. Tryptic fragmentation of denatured proteins with IGT can be performed at 60 °C for shorter digestion times and with smaller amounts of enzyme than normally employed to achieve complete digestion with soluble forms of trypsin. Prior denaturation of proteins for tryptic digestion is not required with IGT as in situ denaturation and digestion can be achieved simultaneously at 60 °C with an enzyme:protein mass ratio as low as 1:1000.

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Physical Sciences and Engineering Chemical Engineering Catalysis
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