Team:Groningen/Template/MODULE/project/parts

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Revision as of 01:32, 17 October 2014

Project > Parts
 
 
 
Lactococcus lactis toolbox
 
Basic BioBricks were submitted that form the basis for working with Lactococcus lactis as a chassis. For getting BioBricks in L. lactis a vector, pIL253 with mRFP was made. Another completely new BioBrick is the sfGFP(Bs) that is highly efficient in L. lactis. Also, some genes of the nisin operon, NisA, NisC, NisR and NisK were BioBricked.
 
 
 
 
 
 
 
 
 
 
Detection system
 
We want Lactococcus lactis to start producing growth inhibiting molecules only when a pathogen is present. Therefore, L. lactis must be able to sense Pseudomonas aeruginosa and Staphylococcus aureus.
 
Detecting Pseudomonas aeruginosa
To give Lactococcus lactis the ability to detect P. aeruginosa we assembled a new BioBrick. We adopted a widely used principle for detection, namely detection of quorum molecules. P. aeruginosa produces AHLs for communication1, therefore we have built an AHL sensor) that can be used by L. lactis.
 
To test the how well Lactococcus lactis can detect P. aeruginosa we build a construct which has the AHL sensor ability coupled with a GFP gene.
 
A related part that was made is the AHL generator. Many iGEM teams are working with AHL sensing, either to detect P. aeruginosa or for an regulatory mechanisms. Our AHL generator produces AHLs, which enables other teams to produce AHLs and test their sensors without the hassle of working with the pathogenic bacterium itself.
 
 
 
 
 
 
 
 
 
 
Secretion system
 
Infection by Staphylococcus aureus and Pseudomonas aeruginosa will be battled by Lactococcus lactis using molecules that prevent biofilm formation, disrupt communication between pathogens and kill the pathogen.
 
Antibiofilm formation
When bacteria start infection of a wound, they often protect themselves with a biofilm. For an effective fight against these infections, the biofilm should be broken down. We have assembled a BioBrick of dispersinB fused to an USP45tag. This part was later assembled in the secretion system, and can work against S. aureus and P. aeruginosa .
 
Battling Pseudomonas aeruginosa
We will fight against P. aeruginosa with an dual action system, consisting of the new BioBricks dispersinB and aiiA. DispersinB works against biofilm formation as described above. AiiA is an quorum quenching enzyme which disrupt communication between P. aeruginosa. By disrupting communication we try reduce the activity of both dividing and activation of pathogenic genes by P. aeruginosa.2
 
Battling Staphylococcus aureus
The cell wall of the Gram-positive bacterium S. aureus contains Lipid-2 fatty acids. These are perfect targets for the anti-microbial nisin.3 We designed and assembled nisin in an a novel BioBrick that combines the expression of dispersinB and nisA. With this second dual action system, we want to fight of infections by S. aureus.
 
More about

 
 
 
 
 
 
 
 
 
 
Submitted parts
 
PartTypeDescriptionDesignerLength
BBa_K1365000CodingnisANisin precursor. Should be used in combination with the other genes on the nisin operon (e.g. in Lactococcus lactis NZ9800).Sandra Mous174
BBa_K1365003CodingnisCProtein needed in the cyclization of the nisin precursor. Part of the nisin operon.Sandra Mous1245
BBa_K1365006CodingnisRKTwo proteins involved in the recognition of nisin and positive feedback regulation to induce the PNisA promoter. This BioBrick is part of the nisin operon.Sandra Mous2023
BBa_K1365020CodingsfGFP(Bs)SfGFP(Bs) is a for Bacillus optimized version of the high performance sfGFP that works really well in Lactococcus lactis.4Sandra Mous1625
BBa_K1365100DeviceP2-nisA-dspB-ssUsp45Dual action system against S. aureus, made for expression in L. lactis. Codes for the nisin precursor NisA and the biofilm degrading enzyme DspB. The latter is fused with an USP45sp for transport out of the cell. This device has an P2 promoter and is thus transcribed after binding with p-AgrA.Rick Elbert1625
BBa_K1365111CodingssUsp45-dspBDispersinB fused to an Usp45sp. The DspB enzyme is secreted from the cell via the USP system of L. lactis.5Rick Elbert1170
BBa_K1365120DevicePLasR-aiiA-dpsBDual action system against P. aeruginosa for expression in L. lactis and includes the genes for the autoinducer inactivation enzyme A (AiiA) and Dispersin B (DspB).Rick Elbert2350
BBa_K1365130DevicePLasR-aiiA-dspB-hisSame system as BBa_K1365120, but with 6x histidine tags fused to the two proteins.Rick Elbert2416
BBa_K1365169CodingssUsp45-aiiAAutoinducer inactivation enzyme A (AiiA) gene fused to signalsequence for the USP45 secretion pathway.Rick Elbert834
BBa_K1365301PlasmidpIL253Shuttlevector for L. lactis and B. subtilis.6 Includes the BioBrick compatible VF2 and RV primer binding sites, prefix and suffix. Contains no illegal restriction sites.Lisa Hielkema6230
BBa_K1365555CompositionRBS-sfGFP-dtSfGFP(Bs) combined with RBS and double terminator. This part was used to assemble sfGFP(Bs) with different promoters to characterize the promoters.Aakanksha Saraf874
BBa_K1365556CompositionRBS-nisA-dtNisA combined with an RBS and double terminator. This part was assembled with different promotors for characterization experiments.Aakanksha Saraf328
BBa_K1365557ReporterJ23101-sfgfp(bs)SfGFP(Bs) with the constitutive promoter J23101. Designed for use in L. lactis and E. coli.Aakanksha Saraf915
BBa_K1365997DevicelasRAHL sensor. The LasR membrane protein is produced by this device.Chandhuru Jagadeesan1003
BBa_K1365998SignalinglasIAHL generator. This part can be used to mimic the presence of the AHL producing bacteria P. aeruginosa.Chandhuru Jagadeesan892
BBa_K1365999CompositionRBS-GFP-dtGFP with RBS and double terminator. This BioBrick is compatible with L. lactis and E. coli.Chandhuru Jagadeesan873