Abstract
Cellulosomes are multi-enzyme complexes that orchestrate the efficient degradation of cellulose and related plant cell wall polysaccharides. The complex is maintained by the high-affinity protein-protein interaction between two complementary modules: the cohesin and the dockerin. In order to characterize the interaction between different cohesins and dockerins, we have developed matching fusion-protein systems, which harbor either the cohesin or the dockerin component. For this purpose, corresponding plasmid cassettes were designed, which encoded for the following carrier proteins: (i) a thermostable xylanase with an appended His-tag; and (ii) a highly stable cellulose-binding module (CBM). The resultant xylanase-dockerin and CBM-cohesin fusion products exhibited high expression levels of soluble protein. The expressed, affinity-purified proteins were extremely stable, and the functionality of the cohesin or dockerin component was retained. The fusion protein system was used to establish a sensitive and reliable, semi-quantitative enzyme-linked affinity assay for determining multiple samples of cohesin-dockerin interactions in microtiter plates. A variety of cohesin-dockerin systems, which had been examined previously using other methodologies, were revisited applying the affinity-based enzyme assay, the results of which served to verify the validity of the approach.
Original language | English |
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Pages (from-to) | 491-501 |
Number of pages | 11 |
Journal | Journal of Molecular Recognition |
Volume | 18 |
Issue number | 6 |
DOIs | |
Publication status | Published - Nov 2005 |
Funding
The authors thank Meir Wilchek for critical reading of the manuscript. This research was supported by the Israel Science Foundation (grant nos 394/03,771/01 and 446/01) and by a grant from the United States–Israel Binational Science Foundation (BSF), Jerusalem, Israel. Additional support was provided by the Otto Meyerhof Center for Biotechnology, the Technion, established by the Minerva Foundation (Munich, Germany)
All Science Journal Classification (ASJC) codes
- Molecular Biology
- Structural Biology