Team:Aix-Marseille/Project

KILL XYL

KILL XYL project.

Our project KILL XYL is a cure against the disease caused by the plant pathogen Xylella fastidiosa. This disease currently causes the loss of thousands of hectares of European crops and no extensive cure exists against it.

At Aix-Marseille University we thought about a solution that encloses many aspects of the cure. First, we wanted to improve the detection of the disease. To do so we use a NDVI camera that will help us to see if the plant does photosynthesis or not. If the plant is heavily affected by Xylella fastidiosa, it supports a hydric stress that stops the photosynthesis.

Secondly, we want to get rid of the bacterium. Phages are natural predators of bacteria. They can also be used to transfect DNA into a bacterial cell. Phages have also the advantage of being specific to a strain and to be modulable. As we wanted to be eco-friendly, we create phage-like particles (PLPs), that aren't able to spread. Thus we have phage specific to X. fastidiosa, capable to inject toxic genes into the bacterium.

The main cause of the plants' death, is the hydric stress induced by the accumulation of biofilm into the xylem vessels. To disrupt the biofilm we thought about different solutions. The first one is to stop the bacterium producing any extra poly-saccharide. This could be achieved by quenching the quorum sensing of the bacterium with the help of a little fatty acid called: 2-cis-decenoic acid. Secondly, we wanted to destroy the exo-polysaccharides. An enzyme coming from a bacteriophage could fulfil the use by the hydrolysis of polysaccharides.

Hence, KILL XYL simply detects, disrupt and kill Xylella fastidiosa.

  • T--Aix-Marseille--drone.pngDetection
  • T--Aix-Marseille--icon-phage.pngEngineering PLPs
  • T--Aix-Marseille--icon-QS.pngQuorum sensing
  • T--Aix-Marseille--icon-deps.pngDisrupting biofilm
  • T--Aix-Marseille--icon-model.pngModelling