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<br><br>The RK2 origin of replication is a broad-host-range plasmid belonging to the incP incompatibility group that can be maintained in a large number of bacteria. The minimal region for replication and maintenance consists of an origin of replication, oriV, and the plasmid replication initiator protein TrfA protein, that activates oriV. The copy number of RK2 is about 4-7 per cell in E. coli, 3 in Pseudomonas aeruginosa, and 4-7 in Agrobacterium. | <br><br>The RK2 origin of replication is a broad-host-range plasmid belonging to the incP incompatibility group that can be maintained in a large number of bacteria. The minimal region for replication and maintenance consists of an origin of replication, oriV, and the plasmid replication initiator protein TrfA protein, that activates oriV. The copy number of RK2 is about 4-7 per cell in E. coli, 3 in Pseudomonas aeruginosa, and 4-7 in Agrobacterium. | ||
<br><br>By applying this change, many teams may now have a broad range, low-copy system for a two-plasmid system within a wide variety of bacterial strains. In future application, our polycistronic degradation plasmids may be applied to broad-host-range remediation applications depending on the condition with which the water being treated is in. Applying our two-plasmid system to a wide variety of strains, will introduce the possibility of increased efficiency for PAH degradation in many environmental situations. Some bacterial strains may also code for many more pathways that can be combined with our own in future biodegradation applications. | <br><br>By applying this change, many teams may now have a broad range, low-copy system for a two-plasmid system within a wide variety of bacterial strains. In future application, our polycistronic degradation plasmids may be applied to broad-host-range remediation applications depending on the condition with which the water being treated is in. Applying our two-plasmid system to a wide variety of strains, will introduce the possibility of increased efficiency for PAH degradation in many environmental situations. Some bacterial strains may also code for many more pathways that can be combined with our own in future biodegradation applications. | ||
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− | For more information please see our <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K2491030" target="_blank">BBa_K2491030</a> part | + | <center><img src="https://static.igem.org/mediawiki/2017/7/7e/ImprovePageDiagram.png" width="60%" height="auto"></center> |
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+ | <h6>For more information please see our <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K2491030" target="_blank">BBa_K2491030</a> part | ||
</h6> | </h6> | ||
Revision as of 01:48, 1 November 2017
Improvement
pSB3K3 → BBa_K2491030 short |