Difference between revisions of "Part:BBa K2804005"
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===Usage and Biology=== | ===Usage and Biology=== | ||
| − | <p align="justify"> | + | <p align="justify"> Cellulose binding domains (CBDs) have been widely used in scientific research for their biotechnological applications. Originaly, they are part of the more efficient cellulases improving the binding of the catalytic domain. In this part, the CBD of the scaffolding protein cipA of one of the most efficient cellulolityc bacteria, "Clostridium thermocellum", is fused to sfGFP with a 6X Histidine tail in order to visualize and measure at single-molecule level the interaction between the CBD cipA and bacterial cellulose.</p> |
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| + | [[Image:T--Ecuador--CBD-sfGFP.png|400px|center|thumb|<p align="justify">'''Figure 1: Tridimensional structure of CBD cipA-sfGFP obtained from the server I-Tasser.'''</p>]] | ||
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| + | ===Usage and Biology=== | ||
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| + | Kruus, K., Lua, A. C., Demain, A. L., & Wu, J. H. (1995). The anchorage function of CipA (CelL), a scaffolding protein of the Clostridium thermocellum cellulosome. Proceedings of the National Academy of Sciences of the United States of America, 92(20), 9254–9258. | ||
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[[Image:T--Ecuador--panchoagua.png|400px|center|thumb|<p align="justify">'''Figure 1: Schematic overview of the enhancement mechanism of electron shuttle-mediated electron transfer between bacteria and the anode of MFCs by the synthetic porin OprF. Oxidized mediators diffuse into the periplasmatic space where they accept electrons. Reduced mediators are secreted through outer membrane porins and donate their electrons to the electrode.'''</p>]] | [[Image:T--Ecuador--panchoagua.png|400px|center|thumb|<p align="justify">'''Figure 1: Schematic overview of the enhancement mechanism of electron shuttle-mediated electron transfer between bacteria and the anode of MFCs by the synthetic porin OprF. Oxidized mediators diffuse into the periplasmatic space where they accept electrons. Reduced mediators are secreted through outer membrane porins and donate their electrons to the electrode.'''</p>]] | ||
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| + | ===References=== | ||
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| + | Kruus, K., Lua, A. C., Demain, A. L., & Wu, J. H. (1995). The anchorage function of CipA (CelL), a scaffolding protein of the Clostridium thermocellum cellulosome. Proceedings of the National Academy of Sciences of the United States of America, 92(20), 9254–9258. | ||
Revision as of 02:01, 18 October 2018
CBD cipA fused to sfGFP under the control of LacI promoter
Usage and Biology
Cellulose binding domains (CBDs) have been widely used in scientific research for their biotechnological applications. Originaly, they are part of the more efficient cellulases improving the binding of the catalytic domain. In this part, the CBD of the scaffolding protein cipA of one of the most efficient cellulolityc bacteria, "Clostridium thermocellum", is fused to sfGFP with a 6X Histidine tail in order to visualize and measure at single-molecule level the interaction between the CBD cipA and bacterial cellulose.
Usage and Biology
Kruus, K., Lua, A. C., Demain, A. L., & Wu, J. H. (1995). The anchorage function of CipA (CelL), a scaffolding protein of the Clostridium thermocellum cellulosome. Proceedings of the National Academy of Sciences of the United States of America, 92(20), 9254–9258.
Figure 1: Schematic overview of the enhancement mechanism of electron shuttle-mediated electron transfer between bacteria and the anode of MFCs by the synthetic porin OprF. Oxidized mediators diffuse into the periplasmatic space where they accept electrons. Reduced mediators are secreted through outer membrane porins and donate their electrons to the electrode.
References
Kruus, K., Lua, A. C., Demain, A. L., & Wu, J. H. (1995). The anchorage function of CipA (CelL), a scaffolding protein of the Clostridium thermocellum cellulosome. Proceedings of the National Academy of Sciences of the United States of America, 92(20), 9254–9258.