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Team:HKUST/Project/Materials and Methods
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Revision as of 19:54, 23 October 2010
1.Vectors and bacterial strains
2.Building of chimeric constructs
3.GUS reporter assay
4.Protocol list
5.References
1.Vectors and bacterial strains TOP
The bacterial strains and vectors used in iGEM HKUST 2010 are listed in Table 1 below. E. coli DH10B and DH5α cells are prepared as chemically competent cells and used for transformation. The E. coli cells are plated on antibiotic-containing agar plate and incubated at 37C overnight. L. plantarum WCFS1 used in our project are grown in MRS medium at 30C [1]. The antibiotic concentration we used are listed as follow: ampicillin (150μg/ml for E. coli), kanamycin (50μg/ml for E. coli), chloramphenicol (35μg/ml for E. coli), erythromycin (200μg/ml for E. coli, 10μg/ml for L. plantarum).
Table 1. Bacterial Strains and Vectors |
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Strains |
Description |
Source |
E.coli DH10B |
F- endA1 glnV44 thi-1 recA1 relA1 gyrA96 deoR nupG Φ80dlacZΔM15 Δ(lacZYA-argF)U169, hsdR17(rK- mK+), λ–; used for subcloning |
HKUST stock |
E.coli DH5α |
F- endA1 recA1 galE15 galK16 nupG rpsL ΔlacX74 Φ80lacZΔM15 araD139 Δ(ara,leu)7697 mcrA Δ(mrr-hsdRMS-mcrBC) λ-; used for subcloning |
HKUST stock |
L. plantarum WCFS1 |
Wild type; used for device characterization |
[2] |
Non-virulent S. aureus |
Used for device characterization |
HKUST stock |
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Vectors |
Description |
Source |
pBluescript KSII (+) |
E. coli cloning vector containing T3 promoter, T7 promoter, lacZ gene with multiple cloning site inside; Ampr |
HKUST stock |
pBluescript SKII (+) |
E. coli cloning vector containing T3 promoter, T7 promoter, lacZ gene with multiple cloning site inside. Multiple cloning site inverted; Ampr |
HKUST stock |
pMG36e |
Shuttle vector contain P32 constitutive promoter; Emr |
Yrbio Company |
PBI121 |
Containing gusA reporter gene; Kmr |
HKUST stock |
PMH4 |
Containing mCherry fluorescent gene; Ampr |
HKUST stock |
pRN9232 |
Containing agrC-I; Ampr |
[3] |
pRN9233 |
Containing agrC-IV; Ampr |
[3] |
pRN6683 |
P3-blaZ fusion, for device characterization; Methr |
[4] |
BBa_I746101 |
Containing agrC-1; Kmr |
iGEM 2010 BioBrick distribution |
BBa_J04450 |
Containing RFP reporter gene; Ampr |
iGEM 2010 BioBrick distribution |
2.Building of chimeric constructs TOP
1) Construction of chimeric sensor agrC-plnB in pBluescript and pMG36e
By PCR amplification of Biobrick BBa_I746101, the trans-membrane signal sensing domain agrC with 8 base pair-overhang of the cytoplasmic HPK domain of plnB was obtained. The cytoplasmic HPK domain of plnB with an overhang of agrC was also obtained by PCR amplification from extracted L. plantarum WCFS1 genomic DNA. Next, fusion PCR of two gene fragments was conducted and the desired fusion gene agrC-plnB obtained. After SacI and KpnI double digestion, aforementioned agrC-plnB fusion gene was ligated into pBluescript KSII (+). The cloning vector was transformed into E. coli DH10B. In subsequent steps, the construct agrC-plnB was taken out from pBluescript KSII (+) by SacI and KpnI double digestion, and ligated into E. coli – Lactobacillus shuttle vector pMG36e. The parts were confirmed by DNA sequencing.
2) Construction of agrC-mCherry and agrC-plnB-mCherry in pBluescript and pMG36e
After SacI and KpnI double digestion, agrC-mCherry and agrC-plnB-mCherry fusion gene were ligated into pBluescript KSII (+). The cloning vector was transformed into E. coli DH10B. In subsequent steps, the constructs agrC-mCherry and agrC-plnB-mCherry were taken out from pBluescript KSII (+) by SacI and KpnI double digestion, and ligated into E. coli – Lactobacillus shuttle vector pMG36e. The parts were confirmed by DNA sequencing.
3)Construction of plnA promoter – gusA reporter unit in pBluescript
The 124-base-pair nucleotide of plnA promoter was obtained by annealing a 79-base-pair forward primer and a 73-base-pair reverse primer. The reporter gene gusA was amplified from PBI121 by PCR. The gusA gene was then digested and ligated into pBluescript KSII (+). The cloning vector was transformed into E. coli DH10B. However, we tried several times but still failed to ligate the 124 bp plnA promoter into pBluescript KSII (+).
4)Construction of “hybrid signal peptide-flag tag-DD13-RIP”
Signal peptide, flag-tag and DD13-RIP were obtained by annealing single-stranded oligonucleotides. Each fragment was flanked by restriction enzyme cutting sites for subsequent ligation. Construct “signal peptide- flag tag- DD13 –RIP” was ligated into pBluescript KSII (+). The cloning vector was transformed into E. coli DH10B plasmid amplification. The parts were confirmed by DNA sequencing.
Table 2. Primer List |
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Construct |
Name |
Sequence |
agrC
|
agrC FP |
CAGCTAGAGCTCAAAGAGGAGAAATACTAGATGATTCTG |
agrC RP |
GACTCGGTACCTCTTTGGATCCTTATTAGTTATTGATG |
|
|
|
|
agrC-plnB |
agrC FP |
CAGCTAGAGCTCAAAGAGGAGAAATACTAGATGATTCTG |
agrC RP1 |
GTTTCTAACAGGAACTGGCTGATAACGAAAG |
|
plnB FP |
CAGTTCCTGTTAGAAACGATTAGAGTATATGCTTGGC |
|
plnB RP1 |
GTCAGGTACCTTATTTATCCTCCGTAACAATTAACG |
|
|
|
|
agrC-mCherry |
agrC FP |
CAGCTAGAGCTCAAAGAGGAGAAATACTAGATGATTCTG |
agrC RP 2 |
ATTGCGGCGTTATTGATGATTTCGACTTTCTGAATG |
|
mCherry FP 2 |
ATCAATAACGCCGCAATGGTGAGCAAG |
|
mCherry RP |
ATCGTCCCGGGGCTTACTTGTACAGCTCGTCCATG |
|
|
|
|
agrC-plnB-mCherry |
agrC FP |
CAGCTAGAGCTCAAAGAGGAGAAATACTAGATGATTCTG |
agrC RP 1 |
GTTTCTAACAGGAACTGGCTGATAACGAAAG |
|
plnB FP |
CAGTTCCTGTTAGAAACGATTAGAGTATATGCTTGGC |
|
plnB RP |
ATTGCGGCTTTATCCTCCGTAACAATTAACGTC |
|
mCherry FP 1 |
GAGGATAAAGCCGCAATGGTGAGCAAG |
|
mCherry RP |
ATCGTCCCGGGGCTTACTTGTACAGCTCGTCCATG |
|
|
|
|
plnA promoter-gusA |
plnA promoter synthesis FP |
GCTGGAATTCTCTAGAATTTCATGGTGATTCACGTTTA |
plnA promoter synthesis RP |
CGTAACATCCCGGGCACCTCGCTTTTAGGATAATGT |
|
gusA FP |
GGTGCCCGGGATGTTACGTCCTGTAGAAACCC |
|
gusA RP |
ATACGAATTCGCGGCCGCTTATTGTTTGCCTCCCTGC |
|
|
|
|
Signal peptide-flag tag-DD13 RIP |
F102001 |
CCCGGGAGGAGGCTCGAGATGGACTACAAAGACGAT |
R102002 |
TCGACTTTATCGTCATCGTCTTTGTAGTCCATCTCGAGC |
|
F102003 |
TCGACATGGCTCTGTGGAAGACGCTGCTGAAGAAAGT |
|
R102004 |
CATGGTGAATAAGCCTTCAGAACTTTCTTCAGCAGCGT |
|
F102005 |
CATGGACGAATTTTTGAGCGGCCGCGGTAC |
|
R102006 |
CGCGGCCGCTCAAAAATTCGTC |
|
F102007 |
CCCGGGGATGGGAGCGACGTTAGATGAAAGAAGTAA |
|
R102008 |
ACAAGAGTCCCCAAAACCTTACTTCTTTCATCTAACGTC |
|
F102009 |
TGTTTGTCTGTTTAGGGGCAGTGATACCGTTAGTTAGTA |
|
R102010 |
TCGACTACGTCAGCCTTACTAACTAACGGTATCACTGCC |
|
3.GUS reporter assay TOP
pMG36e-transformed L. plantarum WCFS1 is cultivated at 30C until its optical density at 600nm (OD600) reaches 0.10-0.20. Cells will then be exposed to autoinducing peptide (AIP) and incubated at 30C for 1-2 hours. GUS substrate para-nitrophenyl-β-D-glucuronic acid will then be added and the reaction mixture incubated at 37C for another 20 minutes. Finally, OD reading at 405nm obtained and GUS activity quantified as OD405 / OD600 [1].
4.Protocol list TOP
Heat-shock competent cell preparation heat-shock transformation
http://www.promega.com/guides/subcloning_guide/_row/transforming_bacteria_row.pdf
Electro-competent cell preparation and electro-transformation
http://www.its.caltech.edu/~bjorker/Protocols/Prep_of_electocomp_cells.pdf
Mini-prep
FavorPrep™ Plasmid DNA Extraction Mini Kit
Midi-prep
FavorPrep™ Plasmid DNA Extraction Midi/Maxi Kit
Genomic DNA extraction from L.plantarum
http://www.springerlink.com/content/j2g06724067924p4/#section=86476&page=1
PCR
http://openwetware.org/wiki/PCR
Fusion PCR
http://www.fgsc.net/Aspergillus/Oakley_PCR_protocol.pdf
Colony PCR
http://openwetware.org/wiki/Endy:Colony_PCR
Restriction digest
http://openwetware.org/wiki/Silver:_Restriction_Digest
Ethanol precipitation
http://openwetware.org/wiki/Ethanol_precipitation_of_nucleic_acids
Kit purification
FavorPrep™ GEL/PCR Purification Mini Kit
Gel purification
FavorPrep™ GEL/PCR Purification Mini Kit
Vector dephosphorylation
http://www.neb.com/nebecomm/products_intl/protocol76.asp
Ligation
http://openwetware.org/wiki/DNA_Ligation
Agarose gel electrophoresis
http://www.methodbook.net/dna/agarogel.html
DNA PAGE (Polyacrylamide gel electrophoresis)
http://microbiology.ucdavis.edu/heyer/protocols/dna%20page.pdf
GUS assay
[1]
Flag-tag assay and western blot
http://www.biomol.de/details/AD/protocol-GPCR-WB.pdf
- Johnsborg, O., Diep, D. B. & Nes, N. F. (2003). Structural analysis of the peptide pheromone receptor plnB, a histidine protein kinase from Lactobacillus plantarum. Journal of Bacteriology, 185 (23), 6913–6920. Back
- Kleerebezem, M., Boekhorst, J., Kranenburg, R.V., Molenaar, D. & Kuipers, O.P. (2003) Complete genome sequence of Lactobacillus plantarum WCFS1. Proceedings of the National Academy of Sciences, 100(4), 1990-1995. Back
- Geisinger, E., George, E.A., Muir, T.W, & Novick, R.P. (2008) Identification of ligand specificity determinants in agrC, the Staphylococcus aureus quorum-sensing receptor. 283(14), 8930–8938. Back
- Novick, R.P., Projan, S.J., Kornblu, J., Ross, H.F. & Ji, G. (1995) The agr P2 operon: an autocatalytic sensory transduction system in Staphylococcus aureus. 248(4), 446-458. Back
