Team:Imperial College London/M2/genes

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Through the course of evolution, E.coli have equipped themselves with a multitude of defences to enable colonisation of the intestine. We are using two global transcription factors (RcsB & YgiV) to hijack this natural process in a way that maximises acid resitance. We have additionally upregulated a third enzyme (rfal) to enhance the encapsulation of single cells (over and above colony encapsulation). Finally, the two biosynthetic genes (OtsA & OtsB) code for enzymes responsible for the production of trehalose. Our manipulation of endogenous pathways reduces virulence while enchancing pill functionality.


Contents

RcsB

Background:

RcsB is a transcription factor that forms part of the phosphorelay system. In response to membrane stress, RcsB is phosphorylated into its DNA binding form. In this state, it is able to both upregulate and downregulate a large number of genes.

RcsB upregulates the following genes:

ivy (Inhibitor of Vertebrate lysozyme)
  • Discovered in 2001 as the first bacterial lysozyme inhibitor. This Type-C lysozyme inhibitor resides in the periplasm.1
MilC (Membrane-bound lysozyme inhibitor of Type C lysozyme)
  • This is a lipoprotein that resides in the membrane. 1
osmC (Osmotically-inducible protein C)
  • This protein provides defense against oxidative stress caused by exposure to organic hydroperoxides. 2 3
bdm (biofilm-dependent modulation protein)
  • Unknown Function 2
wcaF
  • Putative colanic acid biosynthesis acetyltransferase 2
KatE
OsmB
OsmY
PhnQ
gmd
ycfJ
ivy
ygaC
spy
wcaD
ymgD
wza
fcl
ypeC
osmB
rprA
ydhA
ymgG
  • Unknown function

References

1) [http://www.ncbi.nlm.nih.gov/pubmed/19136591 The Rcs two-component system regulates expression of lysozyme inhibitors and is induced by exposure to lysozyme]

2) [http://www.ncbi.nlm.nih.gov/pubmed/19346340 Gene Expression Induced in Escherichia coli O157:H7 upon Exposure to Model Apple Juice]

3) [http://www.ncbi.nlm.nih.gov/pubmed/14627744 Structural and functional features of the Escherichia coli hydroperoxide resistance protein OsmC.]



YgiV

Background:

In nature, the colanic acid synthesis phase occurs prior to biofilm formation. The latter process of biofilm formation is associated with the upregulation of a number of virulence factors. The transcription factor YgiV blocks the progression into biofilm formation by maintaining colanic acid production. Thus YgiV serves to increase acid resistance and decrease virulence.


Rfal

Background:

In the majority of E.coli, the enzyme Rfal joins the O-antigen to the membrane-bound lipid core molecule. Since the K-12 strain has an insertion mutation in the gene coding for O-antigen, the enzyme Rfal is free to join colanic acid to the lipid core.

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