Coding

Part:BBa_K197019

Designed by: Gabriela Guzman Lopez Aguado   Group: iGEM09_Berkeley_Wetlab   (2009-10-21)

TypeIII Needle scFv

This antibody detects the espA motif of the typeIII needle complex present in many pathogenic bacteria. This can be surface displayed for pathogen detection applications.

Usage and Biology

TypeIII Needle scFv

The TypeIII secretion system (TTSS) is present in many pathogenic bacteria such as E. Coli O157:H7 and is a mechanism of their virulence. Specifically, EspA, a subunit of the TypeIII secretion complex, is a virulence factor expressed by both Enteropathogenic and Enterohaemorrhagic (EHEC)bacteria. It has a filament structure that aids in delivery of effector proteins to the host cell. Conditions such as haemorrhagic colitis are caused by EHEC. The surface display of an scFv (single-chain variable fragment) that can bind to espA can disrupt the function of the TTSS, which may have probiotic as well as pathogen detection applications.


Functional Assay: Dot Blot

This assay measures the success of E. coli surface display of typeIII needle scFv and its ability to bind specifically to espA protein, a subunit of the typeIII needle complex in EHEC.

Scfvassay1_2.jpg

basic theory behind experiment The incubation of cells expressing the anti-espA scFv with espA protein allows for specific binding. The washes following incubation separates the bound and unbound espA proteins, such that when the cells are lysed, only the bound espA protein is released into solution and subsequently blotted onto the nitrocellulose. An anti-his antibody conjugated to HRP is used to probe the blot for the his-tagged espA. Signals are read via chemiluminescence.

constructs:
Needle scFv (14)
Gliadin neg control (2)
No pass neg control (14)
1363 negative control (1)

All experiments are done in triplicate

cell growth and induction

  1. inoculate cells from stock into LB with appropriate antibiotics and grow to saturation overnight (12+ hours)
  2. dilute culture 1:100 into media with arabinose and induce for 5-12hours
  3. pipet 100ul of cells to Costar V-bottom polystyrene plate and take OD
  4. pellet cells and flick out media

incubation with espA protein

  1. add 5ul of espA protein to 95ul of PBS buffer and resuspend cells in solution
  2. incubate for 1.5 hours
  3. wash 3X with PBS buffer on plate washer
  4. take OD on 3rd wash
  5. after last wash, pellet cells, and resuspend in 50ul lysis buffer
  6. heat for 15-20 minutes to lyse all cells

dot blot and visualization

  1. pipet 5ul of cell lysate onto nitrocellulose paper and allow to dry completely
  2. wet nitrocellulose with 10ml of 1X TBST for 5minutes
  3. block with 2% BSA (.2g BSA in 10ml 1X TBST)for 1 hour
  4. wash 3X with TBST - 5minutes/wash
  5. add 4ml of 1:500 Anti-His HRP: TBST, wait 30minutes
  6. wash 3X with TBST - 5minutes/wash
  7. leave the last wash on for developing
  8. add 3mls of chemiluminescent reagents to the nitrocellulose paper and take pictures

[http://2009.igem.org/Recipes TBST recipe]

Results

Displayers + TypeIII Needle scFv

Image:Results1.jpg
lysis buffer only negative
gliadin scFv negative
No display (1363) negative

Image:Dotblot_set1.jpg
Most of the constructs have signals larger than the negative control, but two of them gave higher signals than the rest: hia and upaG_short.

These dot blots have not been normalized to protein concentration. However, this does not make a significant difference in the results since the starting ODs (indicating growth) of the bacteria for the constructs and negative controls do not significantly differ.
10-2_OD600.jpg


Results2.jpg
Dotblot_set_2.jpg
The negative controls did not have significant signal.


Results3.jpg

Dotblot_set_3.jpg
There is some detectable background as denoted by the slight signals in the column with just lysis buffer.
Several of the Needle scFv constructs did have positive signals higher than that of the negative controls. (yuaQ and upaG_short)

Displayers Only (negative)

Displayers_numbered.jpg
No detectable signal is present in the set of experiments run with only displays expressed from the cells.

There were three constructs that showed higher signals consistently in all three sets of experiments. They are AIDA, espP, and cpg_L2.

Quantitaive Image J Analysis of Dot Blots

Average_chart.jpg
ScFv_fold_increase.jpg
This data represents the averaged fold increase of three sets of data normalized to the negative control. The data indicates preliminarily the functional display of scFv with displayers Hia, upaG_short, yuaQ, CPG_L2, and espP(beta).

References

La Ragione, R et al. Recombinant anti-EspA antibodies block Escherichia coli O157:H7-induced attaching and effacing lesions in vitro. Microbes and Infection. September 2005; 8: 426–433. Available Online: http://www.sciencedirect.com/science?_ob=MImg&_imagekey=B6VPN-4H4T215-1-7&_cdi=6211&_user=4420&_orig=search&_coverDate=02%2F28%2F2006&_sk=999919997&view=c&wchp=dGLbVtz-zSkzS&md5=f35699db5dcd202f4cd1c1d8739d89b0&ie=/sdarticle.pdf (Accessed: 20 October 2009).


Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]


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Categories
Parameters
None