Nonexistence of Exo-cellobiohydrolase (CBH) in the Cellulase System of Trichoderma viride |
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Authors: | Gentaro Okada Yoshimasa Tanaka |
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Institution: | Department of Biology, Faculty of Education, Shizuoka University, Shizuoka 422, Japan |
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Abstract: | Chemical modification of histidine residues in ricin E was studied with regard to saccharide binding. The analytical data indicate that 6 out of 7 histidine residues in ricin E are eventually modified with diethylpyrocarbonate (DEP) at pH 6.0 and 25°C in the absence of specific saccharides. Modification of histidine residues greatly decreased the cytoagglutinating activity of ricin E, and only 10% of the residual activity was found after modification of 6 histidine residues/mol. The data of affinity chromatography using lactamyl- and galactosamine-cellulofine columns suggest that modification of histidine residues does not have much effect on the binding ability at the low affinity saccharide-binding site of ricin E but abolishes the binding ability at the high affinity saccharide-binding site. In the presence of lactose, one histidine residue/mol was protected from the DEP modification with retention of a fairly high cytoagglutinating activity. Such a protective effect was also observed for specific saccharides such as galactose and A^-acetylgalactosamine, but not for glucose, a non-specific saccharide. On treatment with hydroxylamine, the modified ricin E restored 67 % of the cytoagglutinating activity. Based on these findings, it is suggested that in the high affinity saccharide- binding site of ricin E there exists one histidine residue responsible for saccharide binding. |
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Keywords: | lignan antioxidant activity dihydroguaiaretic acid |
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