Team:Hong Kong-CUHK/Project/Chloride Sensing Unit

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Revision as of 15:58, 25 October 2011

Chloride Sensing Unit

Fig. 1 P_gad operon in L. lactis.

P_gad is chloride-sensitive promoter which was first discovered in Lactococcuslactis¹, which is a gram-positive bacterium which can live in acidic environment. P_gad operon (Fig. 1) provides hydrochloric acid feedback mechanism to adjust intracellular metabolism, in order to survive in acidic environment². In this operon, gadC is glutamate-gamma-aminobutyrate antiporter and gadB is glutamate decarboxylase. They are both involved in intracellular pH regulation and co-expressed in the same operon under the control of P_gad². The gene before P_gad, named gadR, is constitutively expressed under the control of P_gadR, it is a positive regulator of P_gad coupled genes while intracellular chloride level is elevated². When intracellular pH decreases, the expression of gadB and gadC is enhanced due to the action of gadR and confers glutamate-dependent acid resistance in L. lactis².

J. Sanders et al. tried to develop chloride-sensitive expression cassette using P_gad operon³. They constructed the cassette from bp 821 to 2071 of GenBank sequence AF005098, which includes P_gadR, gadR, P_gad and the starting codon ATG, and replaced downstream report genes³. They succeeded in transforming the cassette to E.coli and varying the expression of target genes under different sodium chloride concentrations³. In our project, we try to build light-coupled chloride expression switch based on this design.

If you are insterested in our result on this part, you might visit the "Light Intra-tunable system" session.

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References

1. Sanders, J.W. et al. Identifcation of a sodium chloride-regulated promoter in Lactococcus lactis by single-copy chromosomal fusion with a reporter gene. Mol Gen Genet 257, 681-685(1998).

2. Sanders, J.W. et al. A chloride-inducible acid resistance mechanism in Lactococcus lactis and its regulation. Molecular microbiology 27, 299-310(1998).

3. Sanders, J.W., Venema, G. & Kok, J. A chloride-inducible gene expression cassette and its use in induced lysis of Lactococcus lactis. Appliedand environmental microbiology 63, 4877(1997).

"Creativity is thinking up new things. Innovation is doing new things." - Theodore Levitt

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 	J. Sanders et al. tried to develop chloride-sensitive expression cassette using P<sub>gad</sub> operon<sup>3</sup>.&nbsp; They constructed the cassette from bp 821 to 2071 of GenBank sequence AF005098, which includes P<sub>gadR</sub>, gadR, P<sub>gad</sub> and the starting codon ATG, and replaced downstream report genes<sup>3</sup>. They succeeded in transforming the cassette to <em>E.coli</em> and varying the expression of target genes under different sodium chloride concentrations<sup>3</sup>. In our project, we try to build light-coupled chloride expression switch based on this design.
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-<p>If you are insterested in our result on this part, you might visit the "<a href="https://2011.igem.org/Team:Hong_Kong-CUHK/Project/light">Light Intra-tunable system</a>" session.
+<p>If you are insterested in our result on this part, you might visit the "<a href="https://2011.igem.org/Team:Hong_Kong-CUHK/Project/light">Light Intra-tunable system</a>" session.</p>
+<p><i><a href="#top">(Back to top)</a></i></p><br/>
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