Difference between revisions of "Team:Alverno CA/Experiment"

 
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<title>Alverno iGEM 2016</title>
 
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<center><h2>Experiment</h2></center>
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            <ul>
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                <br>
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                <li><img src=
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                "https://static.igem.org/mediawiki/2016/5/52/T--Alverno_CA--Kiki_benchling.jpeg"
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                style="height:215px;width:215px;" title=
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                "Using Benchling to design primers"/>
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                <li><img src=
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                "Liquid cultures of RFP/GFP constructs; transformed <i>E. coli</i>">
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                <li><img src=
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                "Victoria using the plate reader">
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<br><br><br><br><br><br><br><br><br><br>
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<h3>Introduction </h3>
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<h5> It has been reported in the synthetic biology literature that the relative orientations and positions of genes physically placed near each other in multigene circuits may affect their expression. Specifically, it has been postulated that the issue of supercoiling may be responsible for this interference. Considering this, our intent was to demonstrate these effects on a series of plasmids containing both a RFP coding device, and a GFP coding device on a pSB1C3 pSB1C3 or <a href="https://www.addgene.org/66067/">DVK_AE</a> (derived from pSB1K3). In between the two genes on each plasmid, we placed one of several insulators to separate the genes. These included a 500bp spacer, a 1000 bp spacer, and a dCas9 clamp; each was designed to isolate and eliminate interference. Constructed plasmids were inserted into E. coli (DH5α). Ultimately, the goal of the experiment was to accurately demonstrate interference between two genes (RFP/GFP) on the same plasmid and, in addition, find an insulating mechanism to restrain the effects of possible supercoiling. (For more details, see <a href="https://2016.igem.org/Team:Alverno_CA/Design">Design</a>)
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<br>After constructing these plasmids, we grew transformed <i>E. coli</i> as overnight liquid cultures. </h5>
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<br><br>
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<h4>Methods </h4>
 
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<center><img src="https://s-media-cache-ak0.pinimg.com/originals/86/08/18/860818cfc65e5ff04725bb0f0c05a8af.png" alt="Alverno iGEM Logo" style="width:300px;"></center>
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<h3>Testing spacers <i>in vivo</i></h3>
<h1><center><a href="https://2016.igem.org/Team:Alverno_CA/Protocols">1. Protocols</a></center></h1>
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<h5>Cultures of strains containing plasmids with a 500bp spacer or 1000bp spacer were diluted to the same OD. RFP expression (in AFU), GFP expression (in AFU), and OD were measured using a <a href="http://www.perkinelmer.com/product/victor-x5-for-fl-lum-uv-trf-fp-2030-0050">VICTOR-X3</a> plate reader. Inducers - specifically ATc and IPTG - were added to the strains containing plasmids with the 1000bp spacer. (See <a href="https://2016.igem.org/Team:Alverno_CA/Protocols">"Plate Reading"</a> for more information) </h5>
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<h3> Testing dCas9 clamps <i>in vitro</i> </h3>
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<h5> Cultures of strains containing plasmids with a dCas9 clamp site spacer were mini-prepped to extract plasmids. We designed and constructed gRNA plasmids and obtained dCas9 expression plasmids (<a href="https://www.addgene.org/48657/">DS-SPCasN</a>). All plasmids were mini-prepped and expressed in TX-TL <a href="http://www.openwetware.org/wiki/Biomolecular_Breadboards">TX-TL</a>, an <i>in vitro</i> prototyping technique which mimics cell environments for transcription and translation. The plasmids were tested with and without inducers (IPTG for RFP, and ATc for GFP). GFP and RFP were measured with the plate reader. (See <a href="https://2016.igem.org/Team:Alverno_CA/Protocols">"Plate Reading"</a> for more information)</h5>
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<br>
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<h4><a href="https://2016.igem.org/Team:Alverno_CA/Protocols"> Click Here To Access More Protocols</a></h4>
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Latest revision as of 20:02, 2 November 2016


Experiment













Introduction

It has been reported in the synthetic biology literature that the relative orientations and positions of genes physically placed near each other in multigene circuits may affect their expression. Specifically, it has been postulated that the issue of supercoiling may be responsible for this interference. Considering this, our intent was to demonstrate these effects on a series of plasmids containing both a RFP coding device, and a GFP coding device on a pSB1C3 pSB1C3 or DVK_AE (derived from pSB1K3). In between the two genes on each plasmid, we placed one of several insulators to separate the genes. These included a 500bp spacer, a 1000 bp spacer, and a dCas9 clamp; each was designed to isolate and eliminate interference. Constructed plasmids were inserted into E. coli (DH5α). Ultimately, the goal of the experiment was to accurately demonstrate interference between two genes (RFP/GFP) on the same plasmid and, in addition, find an insulating mechanism to restrain the effects of possible supercoiling. (For more details, see Design)
After constructing these plasmids, we grew transformed E. coli as overnight liquid cultures.


Methods


Testing spacers in vivo

Cultures of strains containing plasmids with a 500bp spacer or 1000bp spacer were diluted to the same OD. RFP expression (in AFU), GFP expression (in AFU), and OD were measured using a VICTOR-X3 plate reader. Inducers - specifically ATc and IPTG - were added to the strains containing plasmids with the 1000bp spacer. (See "Plate Reading" for more information)

Testing dCas9 clamps in vitro

Cultures of strains containing plasmids with a dCas9 clamp site spacer were mini-prepped to extract plasmids. We designed and constructed gRNA plasmids and obtained dCas9 expression plasmids (DS-SPCasN). All plasmids were mini-prepped and expressed in TX-TL TX-TL, an in vitro prototyping technique which mimics cell environments for transcription and translation. The plasmids were tested with and without inducers (IPTG for RFP, and ATc for GFP). GFP and RFP were measured with the plate reader. (See "Plate Reading" for more information)

Click Here To Access More Protocols