Difference between revisions of "Part:BBa K3352003"
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+ | <h3> Construct Design </h3> | ||
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Seeing that purified Φ29 and SplintR are fundamental to the development of our diagnostic test, we attempted to resolve the issue by introducing a T7 promoter to our construct and expressing our protein with BL21 (DE3) E. coli. DE3 strains contain the chromosomal gene T7 RNA Polymerase which is regulated by a lac promoter. T7 RNA Polymerase has been found to be highly selective and efficient in transcribing only the T7 promoter. Resulting in almost a five-fold faster elongation rate that E. coli RNA Polymerase, T7 would be a much stronger promoter of choice. Thus, by using IPTG during protein synthesis of our BL21 (DE3) E. coli culture, we would effectively produce more T7 RNA Polymerase and significantly increase the production of our enzymes positioned downstream of our T7 promoter. | Seeing that purified Φ29 and SplintR are fundamental to the development of our diagnostic test, we attempted to resolve the issue by introducing a T7 promoter to our construct and expressing our protein with BL21 (DE3) E. coli. DE3 strains contain the chromosomal gene T7 RNA Polymerase which is regulated by a lac promoter. T7 RNA Polymerase has been found to be highly selective and efficient in transcribing only the T7 promoter. Resulting in almost a five-fold faster elongation rate that E. coli RNA Polymerase, T7 would be a much stronger promoter of choice. Thus, by using IPTG during protein synthesis of our BL21 (DE3) E. coli culture, we would effectively produce more T7 RNA Polymerase and significantly increase the production of our enzymes positioned downstream of our T7 promoter. | ||
Revision as of 15:51, 18 October 2020
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T7 Terminator Construct DesignSeeing that purified Φ29 and SplintR are fundamental to the development of our diagnostic test, we attempted to resolve the issue by introducing a T7 promoter to our construct and expressing our protein with BL21 (DE3) E. coli. DE3 strains contain the chromosomal gene T7 RNA Polymerase which is regulated by a lac promoter. T7 RNA Polymerase has been found to be highly selective and efficient in transcribing only the T7 promoter. Resulting in almost a five-fold faster elongation rate that E. coli RNA Polymerase, T7 would be a much stronger promoter of choice. Thus, by using IPTG during protein synthesis of our BL21 (DE3) E. coli culture, we would effectively produce more T7 RNA Polymerase and significantly increase the production of our enzymes positioned downstream of our T7 promoter.
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Secondary Structure
Measurement
- [http://openwetware.org/wiki/Cconboy:Terminator_Characterization/Results How these parts were measured]