Team:Evry/Chelator

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<p>In order to characterized our chelator constructions, we intend to use the property of a chemical compound called Chrome azurol S. As shown in previous papers(
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<p>In order to characterized our chelator constructions, we intend to use the property of a chemical compound called Chrome azurol S. As shown in previous papers(Adriane M.F. et al, 1999)
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http://www.ncbi.nlm.nih.gov/pubmed/?term=Detection+of+siderophore+production+from+several+fungi+and+bacteria+by+a+modi%EF%AC%81cation+of+chrome+azurol+S+(CAS)+agar+plate+assay
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Revision as of 01:25, 5 October 2013

Iron coli project

Iron Chelator

First strategy for enterobactin biosynthesis

Here we present Fig 1 and 2 our constructions which contain each three Lac I regulated enterobactin synthesis genes. Escherichia coli naturally have those genes into a single operon but due to their important lenghts, we decided to divide them into two indivudual constructions in order to make the cloning easier.

Fig 1 First construction containing the Lac I regulated enterobactin synthesis genes Ent A, Ent D and Ent F. Genes fusions were made with flanking restriction sites that are compatible with Biobrick-based cloning.


Fig 2 Second construction containing the Lac I regulated enterobactin synthesis genes Ent B, Ent C and Ent E. Genes fusions were made with flanking restriction sites that are compatible with Biobrick-based cloning.

NAME FIGURE Description

Lac promoter

Lac Promoter

RBS + EntA

First gene required for enterobactin sythesis

RBS + EntB

Second gene required for enterobactin sythesis

RBS + EntC

Third gene required for enterobactin sythesis

RBS + EntD

Fourth gene required for enterobactin sythesis

RBS + EntE

Fifth gene required for enterobactin sythesis

RBS + EntF

Sixth gene required for enterobactin synthesis

Terminator

Transcription Stop signal

Plasmid

Backbone with ampicillin resistance

Table 1. Genetic elements used to produce the enterobactin siderophore.

Second strategy for enterobactin biosynthesis

Even though we tried to simplify the cloning, our many attemps to obtain the constructions failed. We thus investigated every step of our cloning in order to determine why it did not work. We finally assumed that these failures were due to several reasons.

First,the design of the overhangs' parts for the golden gate assembly had not been thorougly conceived. Indeed, two differents combination in the parts' order were actually possible.

Further more, sequencing results of our plasmids has shown that among the two theorical possibilities, only one of them was obtained in all the clones we have tested. This combination were characterised by a switch in the parts' order, leading to a non functional siderophore production system. Therefore, we came to the conclusion that our functional system, as we engineered it, was probably toxic for our bacteria.

Thus, we have conceived new cloning approaches. First of all, we chose to extract the different genes of the enterobactin biosynthesis for a new assembly but without refactoring them in order to keep as much as possible their natural regulation, that we know is no toxic. Playing it safe, for this approach we also want to divide the different genes on two plasmids.

Thereafter, we also want to design a single plasmid which would contains the six genes (Fig 3). It is more risky but it would make the co-transformation with the pAceb-Lac I plasmid easier.

HCversion
Figure 3 : Enterobactin construction version 3 (non refactored) .

Future caracterisation of the construction

In order to characterized our chelator constructions, we intend to use the property of a chemical compound called Chrome azurol S. As shown in previous papers(Adriane M.F. et al, 1999)

http://www.ncbi.nlm.nih.gov/pubmed/?term=Detection+of+siderophore+production+from+several+fungi+and+bacteria+by+a+modi%EF%AC%81cation+of+chrome+azurol+S+(CAS)+agar+plate+assay