Martinez-Fleites, Carlos, Guerreiro, Catarina I. P. D., Baumann, Martin J. , Taylor, Edward J., Prates, Jose A. M., Ferreira, Luis M. A., Fontes, Carlos M. G. A., Brumer, Harry and Davies, Gideon J. (2006) Crystal structures of Clostridium thermocellum xyloglucanase, XGH74A, reveal the structural basis for xyloglucan recognition and degradation. The Journal of Biological Chemistry, 281 (34). pp. 24922-24933. ISSN 0021-9258
Full content URL: http://dx.doi.org/10.1074/jbc.M603583200
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| Item Type: | Article |
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| Item Status: | Live Archive |
Abstract
The enzymatic degradation of the plant cell wall is central both to the natural carbon cycle and, increasingly, to environmentally friendly routes to biomass conversion, including the production of biofuels. The plant cell wall is a complex composite of cellulose microfibrils embedded in diverse polysaccharides collectively termed hemicelluloses. Xyloglucan is one such polysaccharide whose hydrolysis is catalyzed by diverse xyloglucanases. Here we present the structure of the Clostridium thermocellum xyloglucanase Xgh74A in both apo and ligand-complexed forms. The structures, in combination with mutagenesis data on the catalytic residues and the kinetics and specificity of xyloglucan hydrolysis reveal a complex subsite specificity accommodating seventeen monosaccharide moieties of the multibranched substrate in an open substrate binding terrain.
| Additional Information: | The enzymatic degradation of the plant cell wall is central both to the natural carbon cycle and, increasingly, to environmentally friendly routes to biomass conversion, including the production of biofuels. The plant cell wall is a complex composite of cellulose microfibrils embedded in diverse polysaccharides collectively termed hemicelluloses. Xyloglucan is one such polysaccharide whose hydrolysis is catalyzed by diverse xyloglucanases. Here we present the structure of the Clostridium thermocellum xyloglucanase Xgh74A in both apo and ligand-complexed forms. The structures, in combination with mutagenesis data on the catalytic residues and the kinetics and specificity of xyloglucan hydrolysis reveal a complex subsite specificity accommodating seventeen monosaccharide moieties of the multibranched substrate in an open substrate binding terrain. |
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| Keywords: | Xyloglucanase, Xyloglucan degradation, multibranched substrate |
| Subjects: | C Biological Sciences > C700 Molecular Biology, Biophysics and Biochemistry |
| Divisions: | College of Science > School of Life Sciences |
| ID Code: | 6166 |
| Deposited On: | 18 Sep 2012 12:03 |
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