Team:NCTU Formosa/New Idea D
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<p><span style="font-weight:normal;font-size:150%;line-height:150%"> The conserved sequence of an RBS is AGGAGAA (red label in Fig.1). Mutations occurring in the nearby region affect RBS translational activity, therefore, by implementing random mutations in nearby regions, variations in translational activity of the RBSs can be generated.</span> </p> | <p><span style="font-weight:normal;font-size:150%;line-height:150%"> The conserved sequence of an RBS is AGGAGAA (red label in Fig.1). Mutations occurring in the nearby region affect RBS translational activity, therefore, by implementing random mutations in nearby regions, variations in translational activity of the RBSs can be generated.</span> </p> | ||
- | + | <img class= "center"src="https://static.igem.org/mediawiki/2009/d/dd/WNI4.jpg" alt="Image description" title="Part" /> | |
+ | <p><span style="font-weight:normal;font-size:130%;line-height:150%"> | ||
+ | Fig. 1: The sequence of RBS part BBa_B0034. The conserved sequence is marked in red. The RBS library can be created when the RBS regions are amplified by degenerated primers with some random mutations (blue), then such a library can represent many variations in RBS strength.</span> | ||
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Revision as of 00:47, 28 October 2010
Project>New Idea
A simple and rapid protocol for generation of RBS library with different translational activity
Motive
The first step in programming and controlling cell behavior is to establish a library of well-defined components, a.k.a. "biobricks", that serve as the building blocks of artificial gene networks. The main challenge in genetic circuit design lies in selecting well-matched genetic components that when coupled, reliably and consistently act in a desired behavior. Although the parameter values are calculated by model equations, it is hard to select the biobricks that reliably implements a desired cellular function with quantitative values. To overcome this problem, the RBSs were designed to control the expression of downstream genes when necessary. This protocol will describe how to generate a RBS library with different ribosome binding affinities. The degenerated primers designed for PCR are used to generate mutations in RBS regions, while the mutated RBS activity are assayed using green fluorescence protein on a low copy number plasmid. In addition, a library of RBS's with different transcriptional strength can be built to fit the specific parameter values derived from model equations. Because the reporter protein activity has a positive correlation to RBS translational activity, we can design customizable RBS translational strengths for application.
Principle
The conserved sequence of an RBS is AGGAGAA (red label in Fig.1). Mutations occurring in the nearby region affect RBS translational activity, therefore, by implementing random mutations in nearby regions, variations in translational activity of the RBSs can be generated.
Fig. 1: The sequence of RBS part BBa_B0034. The conserved sequence is marked in red. The RBS library can be created when the RBS regions are amplified by degenerated primers with some random mutations (blue), then such a library can represent many variations in RBS strength.