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− | <section id="cta" style="background-image:url('https://static.igem.org/mediawiki/2015/0/04/Unitn_pics_slider_5.jpg');"> | + | <section id="cta" class="cta-interlab"> |
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| <header> | | <header> |
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| <p class="wow fadeInDown">We used the <span class="i_enph">three mandatory devices</span> for the measurement study: | | <p class="wow fadeInDown">We used the <span class="i_enph">three mandatory devices</span> for the measurement study: |
| <ul class="customlist arrowed"> | | <ul class="customlist arrowed"> |
− | <li>Device 1: <a class="i_linker registry" target="_blank" href="http://parts.igem.org/Part:BBa_J23101">BBa_J23101</a> + <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_I13504">BBa_I13504</a> in pSB1C3</li> | + | <li>Device 1: <a class="i_linker registry" target="_blank" target="_blank" href="http://parts.igem.org/Part:BBa_J23101">BBa_J23101</a> + <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_I13504">BBa_I13504</a> in pSB1C3</li> |
− | <li>Device 2: <a class="i_linker registry" target="_blank" href="http://parts.igem.org/Part:BBa_J23106">BBa_J23106</a> + <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_I13504">BBa_I13504</a> in pSB1C3</li> | + | <li>Device 2: <a class="i_linker registry" target="_blank" href="http://parts.igem.org/Part:BBa_J23106">BBa_J23106</a> + <a class="i_linker registry" registry" target="_blank" href="http://parts.igem.org/Part:BBa_I13504">BBa_I13504</a> in pSB1C3</li> |
− | <li>Device 3: <a class="i_linker registry" target="_blank" href="http://parts.igem.org/Part:BBa_J23117">BBa_J23117</a> + <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_I13504">BBa_I13504</a> in pSB1C3</li> | + | <li>Device 3: <a class="i_linker registry" target="_blank" href="http://parts.igem.org/Part:BBa_J23117">BBa_J23117</a> + <a class="i_linker registry" registry" target="_blank" href="http://parts.igem.org/Part:BBa_I13504">BBa_I13504</a> in pSB1C3</li> |
| <li>Negative control: <a class="i_linker registry" target="_blank" href="http://parts.igem.org/Part:BBa_R0040">BBa_R0040</a> in pSB1C3</li> | | <li>Negative control: <a class="i_linker registry" target="_blank" href="http://parts.igem.org/Part:BBa_R0040">BBa_R0040</a> in pSB1C3</li> |
| <li>Positive control: <a class="i_linker registry" target="_blank" href="http://parts.igem.org/Part:BBa_I20270">BBa_I20270</a> in pSB1C3.</li> | | <li>Positive control: <a class="i_linker registry" target="_blank" href="http://parts.igem.org/Part:BBa_I20270">BBa_I20270</a> in pSB1C3.</li> |
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| <div class="7u 12u(narrower)"> | | <div class="7u 12u(narrower)"> |
− | <p>The measurement devices were prepared by amplifying the reporter (<a class="i_linker registry" href="http://parts.igem.org/Part:BBa_I20270">BBa_I20270</a>) by PCR. The amplified insert was then cut with <span class="i_enph">XbaI</span> and <span class="i_enph">PstI</span> and ligated into the plasmid containing the promoter previously cut with <span class="i_enph">SpEI</span> and <span class="i_enph">PstI</span>. All the devices were confirmed by <b>restriction digestion</b> as well as <b>DNA sequencing</b>.</p> | + | <p>The measurement devices were prepared by amplifying the reporter (<a class="i_linker registry" href="http://parts.igem.org/Part:BBa_I20270" target="_blank">BBa_I20270</a>) by PCR. The amplified insert was then cut with <span class="i_enph">XbaI</span> and <span class="i_enph">PstI</span> and ligated into the plasmid containing the promoter previously cut with <span class="i_enph">SpEI</span> and <span class="i_enph">PstI</span>. All the devices were confirmed by <b>restriction digestion</b> as well as <b>DNA sequencing</b>.</p> |
| </div> | | </div> |
| </div> | | </div> |
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| <span class="rotate-box-icon"><i class="faa flaticon-bacteria"></i></span> | | <span class="rotate-box-icon"><i class="faa flaticon-bacteria"></i></span> |
| </div><br />In-vivo Measurements </h4> | | </div><br />In-vivo Measurements </h4> |
− | <p>The confirmed devices were then transformed in different bacterial strains of <i>E. coli</i>: <span class="i_enph">NEB10β</span>, <span class="i_enph">NEB Express</span>, and <span class="i_enph">JM109</span>. Each measurement was taken at the same optical density to allow a more precise comparison of the data. For each device we have <span class="i_enph">3 biological</span> and <span class="i_enph">3 technical measurements</span> for each used technique. We measured in vivo fluorescence emission in different ways using <b>Tecan Infinite 200 PRO plate reader</b>, <b>Varian Cary Eclipse spectrofluorimeter</b>, and <b>BD FACSCanto FACS</b>.</p> | + | <p>The confirmed devices were then transformed in different bacterial strains of <i>E. coli</i>: <span class="i_enph">NEB10β</span>, <span class="i_enph">NEB Express</span>, and <span class="i_enph">JM109</span>. Each measurement was taken at the same optical density to allow a more precise comparison of the data. For each device we have <span class="i_enph">3 biological</span> and <span class="i_enph">3 technical measurements</span> for each used technique. We measured in vivo fluorescence emission in different ways using <b>Tecan Infinite 200 PRO plate reader</b>, <b>Varian Cary Eclipse spectrofluorometer</b>, and <b>BD FACSCanto flow cytometer</b>.</p> |
| </div> | | </div> |
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| </div><br />In-vitro Measurements </h4> | | </div><br />In-vitro Measurements </h4> |
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− | <p>We also focused of <span class="i_enph">transcription</span> since the characterization is about promoters. To do so we performed RT-qPCR using a <b>BioRad CFX96 Touch™ Real-Time PCR Detection System</b>. Additionally, we performed an <span class="i_enph">in vitro characterization</span> study, by measuring the fluorescence intensities of each device with a <b>Cell-Free <i>E. coli</i> S30 Extract System</b> with a <b>Qiagen Rotor-Gene Q</b>.</p> | + | <p>We also focused on <span class="i_enph">transcription</span> since the characterization is about promoters. To do so we performed RT-qPCR using a <b>BioRad CFX96 Touch™ Real-Time PCR Detection System</b>. Additionally, we performed an <span class="i_enph">in vitro characterization</span> study, by measuring the fluorescence intensities of each device with a <b>Cell-Free <i>E. coli</i> S30 Extract System</b> with a <b>Qiagen Rotor-Gene Q as the spectrofluorometer</b>.</p> |
| </div> | | </div> |
| </div> | | </div> |
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| <div class="5u 12u(narrower) centered"> | | <div class="5u 12u(narrower) centered"> |
| <a class="fancybox" title="Electrophoresis gel of the reporter gene" rel="group" href="https://static.igem.org/mediawiki/2015/a/ae/Unitn_pics_interlab_gel_GFP1.jpg"><img src="https://static.igem.org/mediawiki/2015/a/ae/Unitn_pics_interlab_gel_GFP1.jpg" alt="" style="width:100%; max-width:163px;"/></a> | | <a class="fancybox" title="Electrophoresis gel of the reporter gene" rel="group" href="https://static.igem.org/mediawiki/2015/a/ae/Unitn_pics_interlab_gel_GFP1.jpg"><img src="https://static.igem.org/mediawiki/2015/a/ae/Unitn_pics_interlab_gel_GFP1.jpg" alt="" style="width:100%; max-width:163px;"/></a> |
− | <p class="image_caption"><span> Electrophoresis gel of the reporter gene</span> The bright band corresponds to the part <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_I13504">BBa_I13504</a>. The part was amplified by Phusion PCR and digested with XbaI and PstI. We can see the expected band at around 875 bp.</p> | + | <p class="image_caption"><span> Electrophoresis gel of the reporter gene</span> The bright band corresponds to the part <a class="i_linker registry" target="_blank" href="http://parts.igem.org/Part:BBa_I13504">BBa_I13504</a>. The part was amplified by Phusion PCR and digested with XbaI and PstI. We can see the expected band at around 875 bp.</p> |
| </div> | | </div> |
| | | |
| <div class="7u 12u(narrower)"> | | <div class="7u 12u(narrower)"> |
− | <p>The reporter gene (i.e. <span class="i_enph italic">GFPmut3b</span> from part <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_I13504">BBa_I13504</a>) was amplified using the Phusion polymerase from New England Biolabs and primers matching the prefix and suffix.</p> | + | <p>The reporter gene (i.e. <span class="i_enph italic">GFPmut3b</span> from part <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_I13504" target="_blank">BBa_I13504</a>) was amplified using the Phusion polymerase from New England Biolabs and primers matching the prefix and suffix.</p> |
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| <p>We used <span class="i_enph quantity">50 ng</span> of template with an annealing temperature of <span class="i_enph quantity">59 °C</span> and an extension time of <span class="i_enph quantity">90 seconds</span>. The PCR was confirmed by electrophoresis and subsequently purified with NucleoSpin Gel and PCR Clean-Up Kit from Macherey-Nigel. <span class="i_enph quantity">125 ng</span> of purified PCR were digested with <span class="i_enph quantity">1 μl</span> of <span class="i_enph">XbaI</span> and <span class="i_enph quantity">1 μl</span> of <span class="i_enph">PstI</span> overnight at <span class="i_enph quantity">37°C</span>. The following morning the sample was treated with <span class="i_enph quantity">1 μl</span> of <span class="i_enph">DpnI</span> for 2 hour at <span class="i_enph quantity">37°C</span> and the enzymes were deactivated for <span class="i_enph quantity">20 min</span> at <span class="i_enph quantity">80 °C</span>.</p> | | <p>We used <span class="i_enph quantity">50 ng</span> of template with an annealing temperature of <span class="i_enph quantity">59 °C</span> and an extension time of <span class="i_enph quantity">90 seconds</span>. The PCR was confirmed by electrophoresis and subsequently purified with NucleoSpin Gel and PCR Clean-Up Kit from Macherey-Nigel. <span class="i_enph quantity">125 ng</span> of purified PCR were digested with <span class="i_enph quantity">1 μl</span> of <span class="i_enph">XbaI</span> and <span class="i_enph quantity">1 μl</span> of <span class="i_enph">PstI</span> overnight at <span class="i_enph quantity">37°C</span>. The following morning the sample was treated with <span class="i_enph quantity">1 μl</span> of <span class="i_enph">DpnI</span> for 2 hour at <span class="i_enph quantity">37°C</span> and the enzymes were deactivated for <span class="i_enph quantity">20 min</span> at <span class="i_enph quantity">80 °C</span>.</p> |
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| <tr> | | <tr> |
| <td></td> | | <td></td> |
− | <td>Plasmid: Insert = 1:3</td> | + | <td>Plasmid:<br/>Insert = 1:3</td> |
| <td>Control</td> | | <td>Control</td> |
| </tr> | | </tr> |
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| <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/7/72/Unitn_pics_interlab_gfp1.jpg" title="Cell pellets at the UV-trans illuminator"><img src="https://static.igem.org/mediawiki/2015/9/97/Unitn_pics_interlab_gfp1_thumb.jpg" alt="" style="width:100%; max-width:400px;"/></a> | | <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/7/72/Unitn_pics_interlab_gfp1.jpg" title="Cell pellets at the UV-trans illuminator"><img src="https://static.igem.org/mediawiki/2015/9/97/Unitn_pics_interlab_gfp1_thumb.jpg" alt="" style="width:100%; max-width:400px;"/></a> |
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− | <p class="image_caption"><span>Cell pellets at the UV-trans illuminator</span> Overnight centrifuged NEB10β cell pellets expressing the assembled devices. Pellet's colors still give an idea of what is the promoter strength. Here we have (<i>from left to right</i>) the strongest promoter J23101, the medium strength promoter J23106, the weak promoter J23117, the positive control I20270, the negative control R0040.</p> | + | <p class="image_caption"><span>Cell pellets at the UV-trans illuminator</span> Pellets of overnight NEB10β cells cultures expressing the assembled devices. Pellet's colors confirmed the promoter strength, (<i>from left to right</i>) the strongest promoter J23101, the medium strength promoter J23106, the weak promoter J23117, the positive control I20270, the negative control R0040.</p> |
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| </div> | | </div> |
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| <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/f/f0/Unitn_pics_interlab_GFP2.png" title="Correct clones were screened by restriction digestion"><img src="https://static.igem.org/mediawiki/2015/8/8a/Unitn_pics_interlab_GFP2_thumb.jpg" alt="" style="width:100%; max-width:400px;"/></a> | | <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/f/f0/Unitn_pics_interlab_GFP2.png" title="Correct clones were screened by restriction digestion"><img src="https://static.igem.org/mediawiki/2015/8/8a/Unitn_pics_interlab_GFP2_thumb.jpg" alt="" style="width:100%; max-width:400px;"/></a> |
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− | <p class="image_caption"><span>Electrophoresis gel of all devices</span> We digested and three colonies for each device with XbaI and PstI. The correct assembly is confirmed by the band at 910 pb.</p> | + | <p class="image_caption"><span>Electrophoresis gel of all devices</span> We digested three colonies for each device with XbaI and PstI. The correct assembly is confirmed by the band at 910 pb.</p> |
| </div> | | </div> |
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| <p>A single colony was inoculated with a sterile pipette tip in a test tube with <span class="i_enph quantity">10 ml</span> of LB and antibiotic (1000:1 LB to antibiotic ratio) and placed in the thermoshaker (<span class="i_enph quantity">190 rpm</span>, <span class="i_enph quantity">37°C</span>). When the culture got cloudy</span>, <span class="i_enph quantity">40 ml</span> of LB+antibiotic were added to reach a final volume of <span class="i_enph quantity">50 ml</span>. The cells were grown until an OD<sub>600</sub> of <span class="i_enph quantity">0.5</span> and then centrifuged at <span class="i_enph quantity">4100 rpm</span> for <span class="i_enph quantity">10 minutes</span> at <span class="i_enph quantity">4 °C</span>. The supernatant was discarded and the cells were resuspend in <span class="i_enph quantity">5 ml</span> of LB + antibiotic + glycerol (<span class="i_enph quantity">20% v/v</span>). The cells were kept on ice and were promptly aliquoted into <span class="i_enph quantity">200 μl</span> tubes and frozen at <span class="i_enph quantity">-80°C</span> immediately. From this protocol we obtained a <span class="i_enph quantity">10X</span> concentrated glycerol stock for each sample.</p> | | <p>A single colony was inoculated with a sterile pipette tip in a test tube with <span class="i_enph quantity">10 ml</span> of LB and antibiotic (1000:1 LB to antibiotic ratio) and placed in the thermoshaker (<span class="i_enph quantity">190 rpm</span>, <span class="i_enph quantity">37°C</span>). When the culture got cloudy</span>, <span class="i_enph quantity">40 ml</span> of LB+antibiotic were added to reach a final volume of <span class="i_enph quantity">50 ml</span>. The cells were grown until an OD<sub>600</sub> of <span class="i_enph quantity">0.5</span> and then centrifuged at <span class="i_enph quantity">4100 rpm</span> for <span class="i_enph quantity">10 minutes</span> at <span class="i_enph quantity">4 °C</span>. The supernatant was discarded and the cells were resuspend in <span class="i_enph quantity">5 ml</span> of LB + antibiotic + glycerol (<span class="i_enph quantity">20% v/v</span>). The cells were kept on ice and were promptly aliquoted into <span class="i_enph quantity">200 μl</span> tubes and frozen at <span class="i_enph quantity">-80°C</span> immediately. From this protocol we obtained a <span class="i_enph quantity">10X</span> concentrated glycerol stock for each sample.</p> |
| | | |
− | <p>The glycerol stock was thaw and added into <span class="i_enph quantity">10 ml</span> of LB with antibiotic, giving a starting culture with an OD<sub>600</sub> of <span class="i_enph quantity">0.1</span>. The sample were grown in a <span class="i_enph quantity">50 mL</span> conical plastic tube in the termoshaker at <span class="i_enph quantity">37°C</span> and were grown until an OD<sub>600</sub> <span class="i_enph quantity">0.7</span>. At this point <span class="i_enph quantity">3 ml</span> of the culture were transferred in a new tube, centrifuged it, and stored at <span class="i_enph quantity">-20°C</span>, except if otherwise indicated.</p> | + | <p>The glycerol stock was thaw and added into <span class="i_enph quantity">10 ml</span> of LB with antibiotic, giving a starting culture with an OD<sub>600</sub> of <span class="i_enph quantity">0.1</span>. The sample were grown in a <span class="i_enph quantity">50 mL</span> conical plastic tube in the termoshaker at <span class="i_enph quantity">37°C</span> and were grown until an OD<sub>600</sub> <span class="i_enph quantity">0.7</span>. At this point <span class="i_enph quantity">3 ml</span> of the culture were transferred in a new tube, centrifuged it, and stored at <span class="i_enph quantity">-20°C</span>, unless otherwise indicated.</p> |
| </div> | | </div> |
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| <div class="12u 12u(narrower)"> | | <div class="12u 12u(narrower)"> |
| <div class="captionbox"> | | <div class="captionbox"> |
− | <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/7/7a/Unitn_pics_interlab_graphs_spectrofluorimeter.png"><img src="https://static.igem.org/mediawiki/2015/6/60/Unitn_pics_interlab_graphs_spectrofluorimeter_thumb.jpg" title="P" alt="" style="width:100%; max-width:600px;"/></a> | + | <a class="fancybox" href="https://static.igem.org/mediawiki/2015/7/7a/Unitn_pics_interlab_graphs_spectrofluorimeter.png"><img src="https://static.igem.org/mediawiki/2015/7/7a/Unitn_pics_interlab_graphs_spectrofluorimeter.png" title="" alt="" style="width:100%; max-width:600px;"/></a> |
| </div> | | </div> |
| <p>The cells were thaw and resuspended in <span class="i_enph quantity">3 ml</span> of PBS. Each measurement was taken in a clear acrylic cuvette (REF 67.755) with a <b>Cary Eclipse Fluorescence Spectrophotometer</b> (made in USA). The blank was done with PBS. The excitation wavelenght used was <span class="i_enph quantity">395 nm</span> and the spectra were acquired between <span class="i_enph quantity">420 nm</span> to <span class="i_enph quantity">650 nm</span>. The gain was optimized at <span class="i_enph quantity">775 V</span> and kept the same throughout the measurement.</p> | | <p>The cells were thaw and resuspended in <span class="i_enph quantity">3 ml</span> of PBS. Each measurement was taken in a clear acrylic cuvette (REF 67.755) with a <b>Cary Eclipse Fluorescence Spectrophotometer</b> (made in USA). The blank was done with PBS. The excitation wavelenght used was <span class="i_enph quantity">395 nm</span> and the spectra were acquired between <span class="i_enph quantity">420 nm</span> to <span class="i_enph quantity">650 nm</span>. The gain was optimized at <span class="i_enph quantity">775 V</span> and kept the same throughout the measurement.</p> |
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| </div> | | </div> |
| | | |
− | <i class="liticon wow bounceInLeft delay06 flaticon-bars-graphic"></i> <h4 class="header4 displayControl">Fluorescence readings: BioRad CFX96 TouchTM Real-Time PCR Detection System</h4> | + | <i class="liticon wow bounceInLeft delay06 flaticon-bars-graphic"></i> <h4 class="header4 displayControl">Fluorescence readings: BioRad CFX96 Touch Real-Time PCR Detection System</h4> |
| <div style="display:none;"> | | <div style="display:none;"> |
| | | |
| | | |
− | <p>The cells were grown from glycerol stock until an OD<sub>600</sub> of <span class="i_enph quantity">0.7</span> was reached. Total RNA was purified by using the <b>Thermo Scientific GeneJET RNA Purification Kit</b>, following the manufacturer`s instructions and subsequently genomic DNA was removed from the total RNA by using the <b>Thermo Scientific RapidOut DNA Removal Kit</b>, following the manufacturer`s instructions. RNA levels were quantified using <b>NanoDrop 1000</b> and reverse transcription of cDNA from the RNA template was performed with <b>Thermo Scientific RevertAid First Strand cDNA Synthesis Kit</b>, following the manufacturer`s instructions. qPCR reactions were performed with <b>BioRad CFX96 TouchTM Real-Time PCR Detection System</b> (made in USA) and assembled as follows:</p> | + | <p>The cells were grown from glycerol stock until an OD<sub>600</sub> of <span class="i_enph quantity">0.7</span> was reached. Total RNA was purified by using the <b>Thermo Scientific GeneJET RNA Purification Kit</b>, following the manufacturer`s instructions and subsequently genomic DNA was removed from the total RNA by using the <b>Thermo Scientific RapidOut DNA Removal Kit</b>, following the manufacturer`s instructions. RNA levels were quantified using <b>NanoDrop 1000</b> and reverse transcription of cDNA from the RNA template was performed with <b>Thermo Scientific RevertAid First Strand cDNA Synthesis Kit</b>, following the manufacturer`s instructions. qPCR reactions were performed with <b>BioRad CFX96 Touch Real-Time PCR Detection System</b> (made in USA) and assembled as follows:</p> |
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| <div class="row"> | | <div class="row"> |
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| </tr> | | </tr> |
| <tr> | | <tr> |
− | <td class="heading">BioRad iQ™ SYBR® Green Supermix #1708880</td> | + | <td class="heading">BioRad iQ SYBR® Green Supermix #1708880</td> |
| <td>Up to 10 μl</td> | | <td>Up to 10 μl</td> |
| </tr> | | </tr> |
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| <p>Primers were designed for the reporter gene <span class="i_enph italic">GFPmut3b</span> and for the housekeeping gene <span class="i_enph italic">idnT</span> <span class="lesser">(D-gluconate transporter)</span> as indicated above.</p> | | <p>Primers were designed for the reporter gene <span class="i_enph italic">GFPmut3b</span> and for the housekeeping gene <span class="i_enph italic">idnT</span> <span class="lesser">(D-gluconate transporter)</span> as indicated above.</p> |
| | | |
− | <p> We then analyzed the raw data, calculating the relative fold expression of each GPF device compared to the housekeeping (ΔCt) and the related standard deviation:</p> | + | <p> We then analyzed the raw data, calculating the relative fold expression of each GFP device compared to the housekeeping (ΔCt) and the related standard deviation:</p> |
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| <table class="standard_table"> | | <table class="standard_table"> |
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| <h3 class="wow fadeInDown">Final Discussion</h3> | | <h3 class="wow fadeInDown">Final Discussion</h3> |
| </header> | | </header> |
− |
| |
| | | |
− | <h4 class="header4-resume wow fadeInDown">Our characterization confirmed the relative strength of the promoters</h4>
| |
− | <p><span class="i_enph">J23101 is the strongest promoter</span> among the three, showing high expression of GFP in all three strains, regardless of the technique used. <span class="i_enph">J23106 is the medium promoter</span>
| |
− | and <span class="i_enph">J23117 the weakest</span>.</p>
| |
| | | |
| + | <div class="row"> |
| + | <div class="12u 12u(narrower)"> |
| | | |
− | <h4 class="header4-resume wow fadeInDown">Ratios across promoters are kept the same</h4>
| + | <h4 class="header4-resume wow fadeInDown">Our characterization confirmed the relative strength of the promoters</h4> |
− | <p><span class="i_enph">J23101/J23106</span> fluorescence ratios ranged from <span class="i_enph quantity">2.0</span> to <span class="i_enph quantity">4.5</span>, depending on the strain and the technique. Differently from the other two promoters, <span class="i_enph">J23117</span> showed a very low GFP production, as it was <span class="i_enph">not detectable by eye</span> or using the trans-illuminator and showed little fluorescence with the three techniques used.</p>
| + | <p><span class="i_enph">J23101 is the strongest promoter</span> among the three, showing high expression of GFP in all three strains, regardless of the technique used. <span class="i_enph">J23106 is the medium promoter</span> and <span class="i_enph">J23117 the weakest</span>.</p> |
− |
| + | |
− | <h4 class="header4-resume wow fadeInDown">Different techniques lead to the same results, with different sensitivities</h4>
| + | |
− | <p>The best way to perform a characterization is to <span class="i_enph">use various techniques</span>. Throughout our experiments we saw that each instrument has a specific sensitivity, which alters the output data. The <span class="i_enph">FACS happened to be the most accurate among all</span>, due to its extremely high intrinsic sentivity. The plate reader also showed a good accuracy while the <span class="i_enph">fluorimeter was not able to detect the weakest promoter</span> from the background noise, due to its low intrinsic sensitivity. The qPCR and the Cell-Free Extract also gave positive results, in line with our expectations.</p>
| + | <h4 class="header4-resume wow fadeInDown">Ratios across promoters are kept the same</h4> |
− |
| + | <p><span class="i_enph">J23101/J23106</span> fluorescence ratios ranged from <span class="i_enph quantity">2.0</span> to <span class="i_enph quantity">4.5</span>, depending on the strain and the technique. Differently from the other two promoters, <span class="i_enph">J23117</span> showed a very low GFP production, as it was <span class="i_enph">not detectable by eye</span> or using the trans-illuminator and showed little fluorescence with the three techniques used.</p> |
− | <h4 class="header4-resume wow fadeInDown">Bacterial strain does matter</h4>
| + | |
− | <p>The three promoters behaved differently in the different bacterial strains used. The bacterial strain which gave the highest fluorescence was <span class="i_enph">NEB10β cells in all cases showed a significant increased expression of the protein</span>, compared to JM109 and NEB Express. We hypothesized this discordance among strains is due to their <span class="i_enph">different genotypes</span>. A different bacterial proteome (i.e. presence/lack of specific proteases and/or chaperonins, polymerases efficiency) may alter protein production, processing and folding, thus fluorescence emission.</p>
| + | <h4 class="header4-resume wow fadeInDown">Different techniques lead to the same results, with different sensitivities</h4> |
− |
| + | <p>The best way to perform a characterization is to <span class="i_enph">use various techniques</span>. Throughout our experiments we saw that each instrument has a specific sensitivity, which alters the output data. The <span class="i_enph">FACS happened to be the most accurate among all</span>, due to its extremely high intrinsic sensitivity. The plate reader also showed a good accuracy while the <span class="i_enph">fluorometer was not able to detect the weakest promoter</span> from the background noise. The use of the qPCR machine as a spectrofluorometer also gave positive results.</p> |
− | <h4 class="header4-resume wow fadeInDown">Looking at promoters from a different angle</h4>
| + | |
− | <p>Characterization in vitro using the qPCR allows to <span class="i_enph">quantify the promoter strength by measuring transcript level</span>, rather than just looking at the protein production. This approach gives a <span class="i_enph">better understanding on the promoter`s nature</span>, since it`s well known that the central dogma in biology is not always respected. </p>
| + | <h4 class="header4-resume wow fadeInDown"><i>In vitro</i> conditions mimic the <i>in vivo</i> reality</h4> |
− |
| + | <p>Comparing the results obtained from the cell-free extract to the others, we discovered that the <span class="i_enph">promoters behave the same when working <i>in vitro</i> or in living bacteria</span>. Since testing constructs in vitro is much faster than in vivo, our results suggest that it may be wise to first screen parts and/or genetic circuitry in vitro. Then the activity of a smaller subset could be confirmed with in vivo measurements.</p> |
− | <h4 class="header4-resume wow fadeInDown"><i>In vitro</i> conditions mimic the <i>in vivo</i> reality</h4>
| + | |
− | <p>Comparing the results obtained from the cell-free extract to the others, we discovered that the <span class="i_enph">promoters behave the same when working <i>in vitro</i> or in living bacteria</span>.</p>
| + | <h4 class="header4-resume wow fadeInDown">Looking at promoters from a different angle</h4> |
| + | <p>In vitro characterization by qPCR allows for the <span class="i_enph">quantification of promoter strength by measuring RNA transcript levels</span>, rather than by looking at the concentrations of something one step removed, i.e. protein. This approach gives a <span class="i_enph">a more direct measure of promoter strength</span>.</p> |
| + | |
| + | <div class="captionbox" style="max-width:850px; width:80%;"> |
| + | <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/1/1c/Unitn_pics_interlab_concl1.png" title=""><img src="https://static.igem.org/mediawiki/2015/7/7b/Unitn_pics_interlab_concl2.png" alt="" style="width:100%;"/></a> |
| + | <p class="image_caption"><span> Promoter strength across strains and techniques </span> Values presented are the average of three technical replicates for each of the three biological samples (total of 9 replicates). Data normalized on the maximum expression value of each technique. Heatmap calculated with R Project.</p> |
| + | </div> |
| + | <br> |
| + | <br> |
| + | |
| + | <h4 class="header4-resume wow fadeInDown">Bacterial strain does matter</h4> |
| + | <p>The three promoters behaved differently in the different bacterial strains used. The bacterial strain which gave the highest fluorescence was <span class="i_enph">NEB10β</span>, which showed significantly increased expression of protein in all cases </span> when compared with JM109 and NEB Express. Clearly this discordance among strains must to be due to their <span class="i_enph">different genotypes</span>. A different bacterial proteome (e.g. presence/lack of specific proteases and/or chaperonins) may alter protein production, processing and folding, and thus fluorescence emission.</p> |
| + | |
| + | |
| + | <div class="captionbox" style="max-width:850px; width:80%;"> |
| + | <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/7/79/Unitn_pics_interlab_supp2.png" title=""><img src="https://static.igem.org/mediawiki/2015/8/80/Unitn_pics_interlab_supp2_thumb.png" alt="" style="width:100%;"/></a> |
| + | <p class="image_caption"><span> Strain influence on promoters efficiency </span> Values presented are the average of three technical replicates for each of the three biological samples (total of 9 replicates). Data normalized on the the maximum expression value of each technique. Heatmap calculated with R Project.</p> |
| + | </div> |
| + | </div> |
| + | |
| + | </div> |
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