Team:DTU-Denmark/SPL Section

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The SPL per se can be illustrated as the following:<br>
The SPL per se can be illustrated as the following:<br>
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<table class="https://static.igem.org/mediawiki/2010/c/c8/SPL1.png" align="center">
<caption align="bottom"><p align="justify"><b>Figure 1</b>: An SPL designed on the basis of randomizing both the spacer sequences surrounding the consensus regions (-35 and -10 regions) as well as randomizing two bases within each of the consensus regions is illustrated. N stands for 25% each of A, C, G and T, while S stands for 50% each of C and G, and W stands for 50% A and T.</p></caption>
<caption align="bottom"><p align="justify"><b>Figure 1</b>: An SPL designed on the basis of randomizing both the spacer sequences surrounding the consensus regions (-35 and -10 regions) as well as randomizing two bases within each of the consensus regions is illustrated. N stands for 25% each of A, C, G and T, while S stands for 50% each of C and G, and W stands for 50% A and T.</p></caption>
<tr><td><img src="https://static.igem.org/mediawiki/2010/c/c8/SPL1.png" ></td></tr>
<tr><td><img src="https://static.igem.org/mediawiki/2010/c/c8/SPL1.png" ></td></tr>
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Figure 1 illustrates how the SPL was designed, where the spacer sequences in-between the -35 and -10 regions, namely N17 have been randomized, where N stands for 25% each of A, C, G and T. Two bases within each of the consensus regions, have been randomized as well although to the degree that they are given a 50% chance of being their original base, this contributing towards having an unbiased promoter library instead of only strong promoters. Within the consensus regions S stands for 50% each of C and G, and W stands for 50% each A and T.<br>
Figure 1 illustrates how the SPL was designed, where the spacer sequences in-between the -35 and -10 regions, namely N17 have been randomized, where N stands for 25% each of A, C, G and T. Two bases within each of the consensus regions, have been randomized as well although to the degree that they are given a 50% chance of being their original base, this contributing towards having an unbiased promoter library instead of only strong promoters. Within the consensus regions S stands for 50% each of C and G, and W stands for 50% each A and T.<br>
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Revision as of 14:21, 27 October 2010

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Introduction

Not only was the Synthetic Promoter Library (SPL) used as a method for attempting to characterize lambda’s N-antiterminator protein, but was also used as a proof of concept experiment for the BBF RFC 63 – DTU Synthetic Promoter Library Standard where we decided to ligate it in front of BBa_I13507.

Construction of BioBricks

The SPL + I13507 construct was ligated into the BioBrick plasmid backbone pSB3T5, this due to pSB3T5 being a low to medium copy number plasmid which contains the p15A replication of origin and a tetracycline resistance marker. The expression of RFP via an SPL would best be controlled and measured through a low copy number plasmid in case too high expression of RFP proved to be detrimental to the cell’s viability, therefore pSB3T5 was chosen as the backbone as it had the best range of copy number amongst the other backbones within the parts-registry. The pSB2K3 backbone could have been used as well, though pSB3T5 gave us more flexibility with the construct as additional regulatory elements were not required such as the case with pSB2K3.

Characterization

The SPL technology was used in order to create a BioBrick compatible standard for fine tuning the expression of BioBrick parts and devices. The methodology used in this proof of concept and what was documented in the standard has slight differences, although the main technology was unchanged, namely the SPL. The differences will be outlined later on.

As mentioned previously, a construct was made where the SPL was ligated with BBa_I13507 into the pSB3T5 backbone. In order to verify and illustrate the variation of the promoter strengths from the SPL, promoters with set known strengths, namely the Anderson promoter library were used in order to benchmark the different promoters generated from the SPL. To further illustrate the flexibility of the usage of SPL, two different strains of E.coli were used, namely XL1-blue and DH5α.

The SPL per se can be illustrated as the following:

Figure 1: An SPL designed on the basis of randomizing both the spacer sequences surrounding the consensus regions (-35 and -10 regions) as well as randomizing two bases within each of the consensus regions is illustrated. N stands for 25% each of A, C, G and T, while S stands for 50% each of C and G, and W stands for 50% A and T.

Figure 1 illustrates how the SPL was designed, where the spacer sequences in-between the -35 and -10 regions, namely N17 have been randomized, where N stands for 25% each of A, C, G and T. Two bases within each of the consensus regions, have been randomized as well although to the degree that they are given a 50% chance of being their original base, this contributing towards having an unbiased promoter library instead of only strong promoters. Within the consensus regions S stands for 50% each of C and G, and W stands for 50% each A and T.

Strategy

Results

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