Difference between revisions of "Promoters and Reporters in Synthetic Biology"
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[http://pubs.acs.org/cgi-bin/article.cgi/achre4/1998/31/i03/html/ar960017f.html Directed evolution] is often used to mutate promoters or reporters in order to obtain desirable attributes. Directed evolution of a gene or protein sequence generally mutates or scrambles the sequence in question, screens it for a certain mutation (any cell not displaying the desirable phenotype is removed), and then amplifies the surviving cells so that the process can begin again. | [http://pubs.acs.org/cgi-bin/article.cgi/achre4/1998/31/i03/html/ar960017f.html Directed evolution] is often used to mutate promoters or reporters in order to obtain desirable attributes. Directed evolution of a gene or protein sequence generally mutates or scrambles the sequence in question, screens it for a certain mutation (any cell not displaying the desirable phenotype is removed), and then amplifies the surviving cells so that the process can begin again. | ||
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| + | However, directed evolution does not produce a truly random promoter library; it can only produce mutated versions of an existing promoter. While this can be useful if only a slightly different version of an existing promoter is needed - say, a faster-degrading GFP - it cannot synthesize a promoter ''de novo''. In that case, combinatorial promoters can be synthesized as in [http://www.nature.com/msb/journal/v3/n1/full/msb4100187.html Cox, Surette and Elowitz (2007)]. | ||
Revision as of 14:43, 20 November 2007
What Are Promoters and Reporters?
Promoters and reporters are genes used in engineering gene circuits. Promoters are DNA sequences located upstream of a gene; they provide binding sites for transcription factors and, eventually, RNA polymerase, allowing genes to be transcribed. If a promoter is being repressed, then transcription cannot occur as RNA polymerase will not have a place to bind.
Reporters are not as specific as promoters; they are genes that convey some easily-identifiable and measurable characteristic when they are transcribed, such as fluorescence or beta-galactoside proteins. Reporters are generally attached to other gene sequences so the scientist has a way of knowing if the gene is being transcribed - if the reporter is being transcribed, one can assume that the gene of interest is being transcribed as well.
Synthetic, Artificial, and Mutated Promoters and Reporters
Directed evolution is often used to mutate promoters or reporters in order to obtain desirable attributes. Directed evolution of a gene or protein sequence generally mutates or scrambles the sequence in question, screens it for a certain mutation (any cell not displaying the desirable phenotype is removed), and then amplifies the surviving cells so that the process can begin again.
However, directed evolution does not produce a truly random promoter library; it can only produce mutated versions of an existing promoter. While this can be useful if only a slightly different version of an existing promoter is needed - say, a faster-degrading GFP - it cannot synthesize a promoter de novo. In that case, combinatorial promoters can be synthesized as in Cox, Surette and Elowitz (2007).
