Designed by: Elise Aubert   Group: iGEM18_Grenoble-Alpes   (2018-09-07)

Pseudomonas aeruginosa (Pyo) detector part - it activation allows the detection of 36bp of Pyo ProC gene.

Pyo detector part :

Biobrick name :
RFC Compatibility :
RFC [10]; RFC [21]; RFC [23]; RFC [25]
Backbones :
Submitted by :
iGEM Grenoble Alpes 2018 team

This year, the goal of our team is to develop a fully automated system capable of :

→ identifying Pseudomonas aeruginosa

→ detecting resistance markers

→ select the right phages for a possible phagotherapy

To do this, we will use a DNA probe: a plasmid with a one-stranded fraction which is complementary to the sequence we want to detect (target).

The target is a 36bp sequence found in Pyo ProC gene. ProC is an housekeeping gene found in all Pseudomonas aeruginosa strains.

This chosen target is flanked with HaeIII restriction sites, so its digestion is necessary to free the target fragment with correct length.

For our proof of concept, we worked on a pathogenic bacterial usually found in nosocomial infection cases due to its ability to develop antibiotic resistance : Pseudomonas Aeruginosa (Pyo), PAO1 strain.

Here, is the description of the probe that characterize the lyse of Pyo which can detect a small fragment of its DNA. To do so, a plasmid containg the probe can be digestion with four specific restriction enzymes (cohesive and nicking enzymes) in order to create a single-stranded window. The feature is that the single-strand part will be specific of the target that we want to detect, this enable the recircularization of the plasmid.

For this part, the detector is inserted in psB1C3 containing BBa_J04450 allowing the emission of red fluorescence. Finally, the goal is to detect fluorescence in our automated system.

Sequence and Features BBa_K2629000 SequenceAndFeatures