ISSN:
0138-4988
Keywords:
Life Sciences
;
Life Sciences (general)
Source:
Wiley InterScience Backfile Collection 1832-2000
Topics:
Process Engineering, Biotechnology, Nutrition Technology
Notes:
Starting from cellulose samples prepared from cotton lintes and differing in lattice type, crystallinity and fibrillar morphology, enzymatic hydrolysis of fibre cellulose has been studied employing complete enzyme systems from Trichoderma, Sporotrichum, Gliocladium and Penicillium as well as isolated endo- and exo-1,4-β-glucanases from Trichoderma reesei and Sporotorichum pulverulentum. The effect of hydrolysis was characterized by content of reducing sugars (RS) and of glucose in the hydrolyzate as well as by DP and X-ray diffraction pattern of the residues. With all the complete enzyme systems investigated about the same order of degradability was found with a series of substrates differing in physical structure. The hydrolysis effect of cellulase from S. pulverulentum proved to be sensitive to the gas atmosphere above the system (N2 or O2), probably due to the interaction of an O2-atmosphere with the activity of the cellubiose-oxydase existent in the system. Isolated endoglucanase from S. pulverulentum and T.reesei still led to a considerable formation of RS and glucose, a corrosion of the fibre surface and a significant descrease in DP. Influence of substrate physical structure was rather small with regard to RS, but still considerable with regard to residue-DP.The effect of isolated exoglucanases depends largely on the chemical structure of the cellobiohydrolase in question, as demonstrated with the two samples “CBH I” and “CBH II” from T. reesei. With CBH I, rather resembling endo-glucanase behaviour, a considerable formation of RS and a significant corrosion of the fibre surface has been observed. On the other hand, only negligibly small amounts of RS were formed by CBH II.Results are discussed with regard to the complex mechanism of cellulase action on fibrous cellulose and with regard to the relevance of different parameters of physical structure of cellulose in connection with enzymatic hydrolysis. A remarkable acceleration of the Cellulose III → Cellulose I lattice transition due to chain fragmentations in the presence of cellulase can be concluded the experiments.
Additional Material:
2 Ill.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1002/abio.370040406
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