Team:Cambridge/Experiments/Low Level Expression

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Low Level Expression

For our in vivo work, we needed to be able to express reflectin at low levels, and control the level of expression reliably. Therefore, we expressed reflectin under an arabinose inducible promoter (pBad) on a low copy plasmid (PSB3K3) in cells with a titratable response to arabinose.

Constructs

In this experiment we used confocal microscopy to compare distribution of Reflectin A1 when it is expressed at high and low levels in E.coli cells. In order to do so, we used four different plasmids with Reflectin A1 gene expressed under the control of the pBAD promoter, and their assembly is described in this section. The constructs we relied on are the following:

GA1 Reflectin A1 on a high copy number plasmid [http://partsregistry.org/Part:pSB1A3 pSB1A3]
GA2 Reflectin A1 on a low copy number plasmid [http://partsregistry.org/Part:pSB3K3 pSB3K3]
GA13 Transcriptional fusion of Reflectin A1 and GFP on a high copy number plasmid [http://partsregistry.org/Part:pSB1A3 pSB1A3]
GA14 Transcriptional fusion of Reflectin A1 and GFP on a low copy number plasmid [http://partsregistry.org/Part:pSB3K3 pSB3K3]

Strains of E.coli

To obtain a linear titratable relation between the concentration of arabinose in the medium and the level of the gene reflectin expression under the control of the pBAD promoter, a special strain of bacteria needs to be used.

The inducible pBAD promoter [http://partsregistry.org/wiki/index.php?title=Part:BBa_I0500 I0500] we used is tightly controlled by two factors:

  • L-arabinose monosaccharide taken up by the cell from the medium, which acts as an inducer.
  • AraC protein included in the I0500 biobrick, which acts an a repressor.

Write more about the induction-repression mechanism. Where does the pBAD promoter comes from?

In the standard E.coli stain used in the lab the linear induction with increasing arabinose concentration is disrupted by interaction of the system with the gene coding for the arabinose transporter araE. The endogenous pBAD promoter which controls the araE gene is upregulated by an increasing concentration of arabinose. Therefore, with higher level of the monosaccharide in the medium, more relevant transporters are present in the plasma membrane and therefore the rate of uptake rises accordingly.

Read more about araE!

This induction of arabinose transporter can be circumvented by deleting the chromosomal araE gene and replacing it with a plasmid-borne copy of the araE under the control of a constitutive promoter.

One of the strains adapted for this purpose is BW27783, which we obtained from...

It is also important to mention that the titratable response is additionally affected by degradation of the arabinose at low concentrations of the monosaccharide. Arabinose breakdown is mediated by the araBAD genes.

Another arabinose transporter is araFGH and it should also be constitutively expressed to guarantee linear response.


This is achieved by introduction of a mutant lacY gene. LacY A177C allows for downhill transport of arabinose, as well as maltose, palatinose, sucrose, and cellobiose (3), but does not actively transport these sugars (4). Lactose import is not affected in this mutant. So, PBAD promoters in cells lacking endogeneous arabinose importers and containing LacY A177C are linearly responsible to arabinose at the individual cell level.

Observations

When reflectin was expressed on a low copy plasmid, we saw fewer inclusion bodies than when expressed on a high copy plasmid.

Induction

Using a plate reader, we measured the expression of reflectin-GFP over time after inducing with arabinose. We saw that reflectin does not appear to be particularly toxic to E. Coli.