Difference between revisions of "Part:BBa K2278001"
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| + | <figure><p style="text-align:center;"><img src=https://static.igem.org/mediawiki/parts/b/b4/GelCqsA.png" width = "400"/><figcaption> Figure : <b>Analyses of pSB1C3_Vh cqsA and pSB1C3_Vc cqsA restriction map. </b> Digested plasmids are electrophoresed through an 0.7% agarose gel. The desired plasmids lengths are in parentheses. pSB1C3 (2029bp the other band correspond to a 700bp insert)</figcaption> | ||
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VhCqsA, the enzyme coding from the C8-CAI-1 producer (CqsA) has been cloned with success and sequenced. | VhCqsA, the enzyme coding from the C8-CAI-1 producer (CqsA) has been cloned with success and sequenced. | ||
Revision as of 22:06, 9 October 2017
Vibrio harveyi C8-CAI-1 (quorum sensing inducer) generator
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal BglII site found at 136
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
Introduction
This DNA biobrick was designed in order to produce C8-CAI-1 of Vibrio harveyi in E. coli strain.
1- Biological background
The production of the Vibrio harveyi quorum sensing inducer (C8-CAI-1) is under the control of the cqsA gene coding for the CqsA synthase. This enzyme catalyzes the production of C8-CAI-1, an analog of CAI-1 quorum sensing inducer from Vibrio cholerae. The CqsA catalyzes the following reaction :
2- Usage in iGEM projects
The BBa_K2278001 cames from the sensing module of the Croc’n cholera project (team INSA-UPS-France 2017) It was designed to produce C8-CAI-1 to simulate the presence of Vibrio cholerae in a water sample and so, to allow the validation of our Vibrio cholerae quorum sensing based detection system.
The part includes Vibrio harveyi cqsA synthase under the control of an IPTG inducible promoter. The C8-CAI-1 producing system is inducible in order to avoid toxicity problems and high metabolic activity during cells growth.
As the cqsA gene comes from Vibrio harveyi which is a BSL1 organism, it can be used as substitute in experiment about the Vibrio cholerae quorum sensing in BSL1 condition.
Experiments
1- Molecular biology
![](https://static.igem.org/mediawiki/parts/b/b4/GelCqsA.png")
2- Expression of CqsA to produce in vivo C8-CAI-1
The cqsA coding gene was placed in silico under the control of the plac promoter (), a strong RBS (BBa_B) and a terminator (BBa_B). IDT performed the DNA synthesis and delivered the part as gBlock. The construct was cloned by conventional ligation into pSB1C3 plasmid and then transformed into E. coli xxxxx strain. Three transformants were obtained.
The transformants (E.coli cqsA) were grown (in LB media at 37°C) for overnight with shaking. The cell growth was monitored at OD600. When OD600 reached 0.6 the culture was induced with IPTG. ; The precultures (OD600 = 2) were washed, diluted 33-fold in M9 supplemented with leucine, … and Cm at a concentration of xxx mg/mL and incubated overnight at 30°C with shaking to ensure a good stability of cqsA molecule (Wei et al. ) The culture supernatant was separated by centrifugation at 6000g for 5 minutes and was stored a -20°C
Characterization
1- Validation of the production of C8-CAI-1
We use MS and NMR analysis approaches to show that we are able to produce C8-CAI-1 using E.coli MS spectra : [Image MS avec le pic qui correspond à la masse de C8-CAI-1 comparé a coli plasm vide).
Characteristic m/z of C8-CAI-1 appears on the MS spectra of (concentrated) supernatant from of production of CqsA with E.coli MG1655. Compared to the control (fig 1A) where no signal from C8-CAI-1 has been detected, the fact that a signal at XXX appears from our production (fig 1B) mean that we were able to produce C8-CAI-1
NMR analysis : [C8-CAI-1 + deplacement chimique des C d’interets + Image NMR qui correspond aux ppm caractéristiques de C8-CAI-1 comparé a coli plasm vide]
Those integrations are characteristics of CAI-1 like molecule because of the ketone + hydroxyle environment of carbon a and carbon b. Those two signals are presents in our production using E.coli MG1655 (blue) compared to the controle of E.coli bearing no plasmid (red).
Discussion :
Combined approach of MS + NMR allows us to be confident in the fact that we were able to produce CAI-1 like molecule into E.coli. Data of the exact mass of the molecule added to characteristic signals in NMR give strengh to this assertion and allow us to realise further experiment such as testing if our produced molecul is bioactive.
2. Validation of C8-CAI-1 bioactivity
The molecule that we have produced has an activity in vivo because it activates the bioluminescence pathway of Vibrio harveyi JMH626. This vibrio strain used to detect C8-CAI-1 molecule because its deleted of other quorum sensing pathway and of the CqsA enzyme- as strong as the wild type strain or as our positive control (SN WT/JMH626). Still, a basal bioluminescence exist (Sn -/JMH626) but is really lower compared to SN with C8-CAI-1 (SN WT/JMH626).
Discussion:
Here we can be confident in the production of C8-CAI-1 bioactive. Addition of data assessing the presence of the molecule with MS + NMR and successful bioactivity test means that C8-CAI-1 is produced with E.coli system, directly with the use of the novel iGEM part that we produced. Moreover, we design a bioluminescence assay on plate for detecting C8-CAI-1 molecule, without using any device for reading bioluminescence. Finally, we are able, thanks to those results to mimic Vibrio cholerae at high concentration for the further experiments.