Difference between revisions of "Team:Manchester-Graz/Project/Experiments"
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− | <h2> | + | <h2>BioBrick Characterisation</h2> |
<p><a href="http://parts.igem.org/Part:BBa_K1670002"> BBa_K1670002</a> (cepR) is characterized along with <a href="http://parts.igem.org/Part:BBa_K1670003"> BBa_K1670003</a> (P<sub>aidA</sub>_mRFP) in a fluorescence-based assay. BBa_K1670002 is cloned into <a href="http://parts.igem.org/Part:BBa_ J23100"> J61002_J23100 </a> (Fig. 2) and is afterwards cotransformed together with <a href="http://parts.igem.org/Part:BBa_K1670003"> pSB3C5_BBa_K1670003</a> (Fig. 3) into <i> E.coli </i> BL21. </p> | <p><a href="http://parts.igem.org/Part:BBa_K1670002"> BBa_K1670002</a> (cepR) is characterized along with <a href="http://parts.igem.org/Part:BBa_K1670003"> BBa_K1670003</a> (P<sub>aidA</sub>_mRFP) in a fluorescence-based assay. BBa_K1670002 is cloned into <a href="http://parts.igem.org/Part:BBa_ J23100"> J61002_J23100 </a> (Fig. 2) and is afterwards cotransformed together with <a href="http://parts.igem.org/Part:BBa_K1670003"> pSB3C5_BBa_K1670003</a> (Fig. 3) into <i> E.coli </i> BL21. </p> | ||
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− | <p>Overnight cultures are inoculated and diluted to an OD of 0.02 and spotted on microtiter plates. Synthesis of mRFP is induced with different concentrations of octanoyl-homoserine lactone (C8-HSL) ranging from a final concentration of 0.01nM – 100 nM. Cultures are incubated at 37°C in a platereader (Biotek Synergy MX) and fluorescence (Excitation 584 nm, Emission 607 nm) and OD<sub>600</sub>is measured every | + | <p>Overnight cultures are inoculated and diluted to an OD of 0.02 and spotted on microtiter plates. Synthesis of mRFP is induced with different concentrations of octanoyl-homoserine lactone (C8-HSL) ranging from a final concentration of 0.01nM – 100 nM. Cultures are incubated at 37°C in a platereader (Biotek Synergy MX) and fluorescence (Excitation 584 nm, Emission 607 nm) and OD<sub>600</sub>is measured every 30 minutes. 10 seconds before measuring the plate is shook (orbital, medium). As a positive control <i>E.coli </i> BL21 <a href="http://parts.igem.org/Part:BBa_J04450"> pSB3C5_J04450 </a> diluted to an OD<sub>600</sub> of 0.02 and induced with a final concentration of 0.1 mM IPTG are used. As negative controls and to account for possible auto fluorescence of the cells wild type <i>E.coli</i> BL21 is used. Also sterile controls containing only LB-media without any cells are pipetted on the microtiter plates. </p> |
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− | <p>Overnight cultures are inoculated and diluted to an OD of 0.02 and spotted on microtiter plates. Synthesis of mRFP is induced with different concentrations of 3-oxo-hexanoyl-homoserine lactone (3OC6-HSL) ranging from a final concentration of 0.01nM – 100 nM. Cultures are incubated at 37°C in a platereader (Biotek Synergy MX) and fluorescence (Excitation 439 nm, Emission 476 nm) and OD<sub>600</sub>is measured every | + | <p>Overnight cultures are inoculated and diluted to an OD of 0.02 and spotted on microtiter plates. Synthesis of mRFP is induced with different concentrations of 3-oxo-hexanoyl-homoserine lactone (3OC6-HSL) ranging from a final concentration of 0.01nM – 100 nM. Cultures are incubated at 37°C in a platereader (Biotek Synergy MX) and fluorescence (Excitation 439 nm, Emission 476 nm) and OD<sub>600</sub>is measured every 30 minutes. 10 seconds before measuring the plate is shook (orbital, medium). As a positive control <i>E.coli </i> BL21 <a href="http://parts.igem.org/Part:BBa_J04421"> pSB3C5_J04421 </a> diluted to an OD<sub>600</sub>of 0.02 and induced with a final concentration of 0.1 mM IPTG are used. As negative controls and to account for possible auto fluorescence of the cells wild type <i>E.coli</i> BL21 is used. Also sterile controls containing only LB-media without any cells are pipetted on the microtiter plates.</p> |
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− | <h2>pCERI | + | <h2>pCERI characterizsation</h2> |
<p>The fully sequenced pCERI is transformed into <i>E.coli</i> BL21 and <i>E.coli </i> Nissle 1917 that are used for the characterization of our regulatory system. </p> | <p>The fully sequenced pCERI is transformed into <i>E.coli</i> BL21 and <i>E.coli </i> Nissle 1917 that are used for the characterization of our regulatory system. </p> |
Revision as of 20:16, 15 September 2015
Experiments
Vector assembly
Figure 1 Vector assembly strategy. [A] all gBlocks are cloned in pJet. [B]
After sequence verifying the gBlocks are cut out of pJet using restriction sites
in the flanking region of each gBlock, [C] With overlap extention PCR two or
three gBlocks are assembled to a bigger fragment. [D] The resulting product is
cloned in pJet, secquence verified and cut out again using restriction sites.
[E] Using Gibson assembly the fragments are assembled to a full vector [F].
Our vector pCERI is assembled from scratch, by ordering synthesized genes on gBlocks that are needed for its functionality. All the gBlocks we ordered from IDT already contain overlapping sequences to the following gBlock. Before we actually want to assemble our vector however, we want to make sure the used gBlocks have the right sequence. Thus all gene fragments are blunt-end cloned into the commercial vector pJET 1.2 for sequencing purpose (Fig.1 A). Sequence verified gBlocks are afterwards cut out with flanking restriction sites on each gBlock, so no additional bases from pJET 1.2 that would disturb the following overlap-extension PCR (OE-PCR) remain (Fig.1 B).
After sequence verification two to three gBlocks are fused to larger DNA fragments by OE-PCR (Fig.1 C). These fragments are also cloned into pJET 1.2 and cut out again after sequence verification (Fig.1 D). The fragment bla_p15A, containing the p15A origin of replication is cloned into another commercial vector pPIC9 via two flanking BglII restriction sites to circumvent problems with two bacterial origins of replications on one plasmid (not shown). The four resulting fragments, PaidA_mRFP, PesaRC_cfp_cepI, esaI_cepR_esaR_PesaS and p15A_bla are fused to a functional circular vector by Gibson assembly (Fig.1 E).
BioBrick Characterisation
BBa_K1670002 (cepR) is characterized along with BBa_K1670003 (PaidA_mRFP) in a fluorescence-based assay. BBa_K1670002 is cloned into J61002_J23100 (Fig. 2) and is afterwards cotransformed together with pSB3C5_BBa_K1670003 (Fig. 3) into E.coli BL21.
Figure 2 J61002_BBa_J23100_BBa_ K1670002 (cepR)
Figure 3 pSB3C5_BBa_ BBa_K1670003 (PaidA_mRFP)
Overnight cultures are inoculated and diluted to an OD of 0.02 and spotted on microtiter plates. Synthesis of mRFP is induced with different concentrations of octanoyl-homoserine lactone (C8-HSL) ranging from a final concentration of 0.01nM – 100 nM. Cultures are incubated at 37°C in a platereader (Biotek Synergy MX) and fluorescence (Excitation 584 nm, Emission 607 nm) and OD600is measured every 30 minutes. 10 seconds before measuring the plate is shook (orbital, medium). As a positive control E.coli BL21 pSB3C5_J04450 diluted to an OD600 of 0.02 and induced with a final concentration of 0.1 mM IPTG are used. As negative controls and to account for possible auto fluorescence of the cells wild type E.coli BL21 is used. Also sterile controls containing only LB-media without any cells are pipetted on the microtiter plates.
BBa_K1670005 (esaR) is characterized along with BBa_K1670001 (PesaRC_cfp) in a fluorescence-based assay. BBa_K1670005 is cloned into J61002_J23100 (Fig. 4) and is afterwards cotransformed together with pSB3C5_BBa_K1670001 (Fig. 5) into E.coli BL21.
Figure 4 J61002_BBa_J23100_BBa_ K1670005 (esaR)
Figure 5 pSB3C5_BBa_K1670001 (PesaRC_cfp)
Overnight cultures are inoculated and diluted to an OD of 0.02 and spotted on microtiter plates. Synthesis of mRFP is induced with different concentrations of 3-oxo-hexanoyl-homoserine lactone (3OC6-HSL) ranging from a final concentration of 0.01nM – 100 nM. Cultures are incubated at 37°C in a platereader (Biotek Synergy MX) and fluorescence (Excitation 439 nm, Emission 476 nm) and OD600is measured every 30 minutes. 10 seconds before measuring the plate is shook (orbital, medium). As a positive control E.coli BL21 pSB3C5_J04421 diluted to an OD600of 0.02 and induced with a final concentration of 0.1 mM IPTG are used. As negative controls and to account for possible auto fluorescence of the cells wild type E.coli BL21 is used. Also sterile controls containing only LB-media without any cells are pipetted on the microtiter plates.
BBa_K1670000 and BBa_K1670004 are cloned into J61002_BBa_J23100 for constitutive expression of the homoserine lactone synthases CepI and EsaI (Fig. 6, 7). To verify functional expression of the synthases, single cell colonies are streaked on LB-Amp in parallel with Chromobacterium violaceum CV026. Native Chromobacterium violaceum produces the characteristic purple pigment violacein. In CV026 violacein production is inducible by multiple homoserine lactones with different sensitivities [1]. In consequence violacein is only produced, if BBa_K1670000 and BBa_K1670004 show to be functional. As a positive control 3-oxohexanoyl-homoserine lactone and octanoyl-homoserine lactone dissolved in acetonitrile and diluted with ddH2O to a concentration of 100 nm are spotted next to C. violaceum CV026 respectively. As a negative control ddH2O is spotted.
Figure 6 J61002_BBa_J23100_BBa_K1670000 (CepI)
Figure 7 J61002_BBa_J23100_BBa_K1670004 (EsaI)
pCERI characterizsation
The fully sequenced pCERI is transformed into E.coli BL21 and E.coli Nissle 1917 that are used for the characterization of our regulatory system.
The expression efficiency of the genes of interest is characterized by a fluorescence-based assay (Results) Overnight cultures of both recombinant strains are inoculated with single colonies. The overnight cultures are diluted with LB-Amp to an OD of 0.02. 200 μ of the dilutions are pipetted in microtiter plates and incubated at 37 °C in the plate reader. Every 15 minutes mRFP fluorescence (Ex. 584 nm, Em. 607 nm), CFP fluorescence (Ex. 439 nm, Em. 476) and OD600 is measured over a period of 13 h. The measured RFU (relative fluorescence unit) is either blotted against time or against OD600 to evaluate the expression behavior of pCERI. Additionally several samples are either induced with 0.1 -50 nM of 3OC6-HSL and 0.1-100 nM of C8-HSL to explore putative advantages of higher HSL-synthesis, that might be possible by positioning each HSL-synthase, BBa_K1670000 and BBa_K1670004 at the beginning of the respective transcript. As positive controls E.coli BL21 pSB3C5_J04421 and pSB3C5_J04450 diluted to an OD600of 0.02 and induced with a final concentration of 0.1 mM IPTG are used. As negative controls and to account for possible auto fluorescence of the cells wild type E.coli BL21 and E.coli Nissle 1917 are used. Also sterile controls containing only LB-media without any cells are pipetted on the microtiter plates.
Table 1 Calculated molecular weight
of expressed proteins by pCERI
Actual expression of our genes of interest as well as the regulatory proteins of pCERI is confirmed by fermentation of recombinant E.coli BL21 and E.coli Nissle 1917 for different intervals in the range of 1 h to 14 h. 300mL LB-Amp are inoculated with ONCs of each strain to a final OD600 of 0.05 and incubated at 37°C and 100 rpm. As positive controls recombinant E.coli BL 21 pSB3C5_J04421 and pSB3C5_J04450 are cultivated under the same conditions. As negative controls wildtyp E.coli BL21 and E.coli Nissle 1917, as well as a sterile control containing only LB-Amp without any inoculum, are used. Fermentations are stopped by putting the cultures on ice. Cells are harvested by centrifugation (4000 rpm, 10 min, 4°C). Pellets are afterwards resuspended in 20mM sodium phosphate buffer (pH=8; 10 ml buffer per gram wet cells). The resuspended cells are disrupted by sonication (6 min, 80% duty cycle). The lysate is centrifuged at 5000 rpm for 45 min to separate all insoluble protein from soluble proteins. Soluble proteins of all different fractions are separated by SDS-PAGE (12% polyacrylamide, V) and stained with Coomassie Brilliant Blue. Expected sizes of all recombinant proteins are priorly calculated with ExPASy’s Protparam tool (Table 1) [2].
2) Gasteiger et al. (2005) Protein Identification and Analysis Tools on the ExPASy Server; John M. Walker (ed): The Proteomics Protocols Handbook, Humana Press pp. 571-607