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Cellulase activity on insoluble cellulose substrates declines as the substrate is modified. The role of structural changes that result in substrate recalcitrance, such as changes to cellulose crystallinity, requires further investigation. Crystallinity of cellulose samples with varying extents of digestion can only be compared meaningfully using a high throughput - Fourier transform infrared spectroscopy...
There are two well studied mechanisms that are used by cellulolytic microorganisms to degrade the cellulose present in plant cell walls and a third less well studied oxidative mechanism used by brown rot fungi. The well studied mechanisms use cellulases to hydrolyze the β-1,4 linkages present in cellulose, however the way in which cellulases are presented to the environment are quite different for...
The synergistic action between Thermobifida fusca exocellulase Cel6B and endocellulase Cel5A on sodium hydroxide pretreated bacterial cellulose (BC) was determined. The activities of Cel6B and Cel5A were tested singly and both activities were dramatically increased on pretreated BC, especially in the early stage of hydrolysis. Cel5A, which attacks the cellulose chain randomly, showed a larger increase...
In this study we employed Size Exclusion Chromatography (SEC) and X-ray diffraction to monitor the molecular weight and crystallinity of bacterial cellulose I and II (BC-I, BC-II) and microcrystalline cellulose (MCC) digested with three “pure” Thermobifida fusca cellulases (Cel6A, Cel6B, and Cel9A ). For each enzyme, cellulose crystallinity was found to increase modestly with treatment time. The digestion...
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