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Item Molecular dynamics simulation of chitinase I from Thermomyces lanuginosus SSBP to ensure optimal activity(Taylor and Fancis Online, 2016-09-22) Khan, Faez Iqbal; Bisetty, Krishna; Gu, Ke-Ren; Singh, Suren; Permaul, Kugen; Hassan, Md. Imtaiyaz; Wei, Dong-QingThe fungal chitinase I obtained from Thermomyces lanuginosus SSBP, a thermophilic deuteromycete, has an optimum growth temperature and pH of 323.15 K and 6.5, respectively. This enzyme plays an important task in the defence mechanism of organisms against chitin-containing parasites by hydrolysing β-1, 4-linkages in chitin. It acts as both anti-fungal and biofouling agents, with some being thermostable and suitable for the industrial applications. Three-dimensional model of chitinase I enzyme was predicted and analysed using various bioinformatics tools. The structure of chitinase I exhibited a well-defined TIM barrel topology with an eight-stranded α/β domain. Structural analysis and folding studies at temperatures ranging from 300 to 375 K using 10 ns molecular dynamics simulations clearly showed the stability of the protein was evenly distributed even at higher temperatures, in accordance with the experimental results. We also carried out a number of 20 ns constant pH molecular dynamics simulations of chitinase I at a pH range 2–6 in a solvent. This work was aimed at establishing the optimum activity and stability profiles of chitinase I. We observed a strong conformational pH dependence of chitinase I and the enzyme retained their characteristic TIM barrel topology at low pH.