Difference between revisions of "Team:William and Mary/Measurement"

Latest revision as of 03:38, 15 December 2017

Measuring Temporal Dynamics

For our project this year we successfully designed and characterized an accessible and modular degradation-based system for the control of gene expression speed. Utilizing an E. coli orthogonal tmRNA degradation system consisting of a Mesoplasma florum Lon (mf-Lon) protease [1] and highly engineered tmRNA tags [2] with a range of protease affinities, we were able to engineer gene expression speed change driven by degradation rate. To do this we first had developed a time course measurement protocol that would allow robust and reproducible single cell measurements. Developing this method was time intensive, and meant that we spent a large portion of the summer without getting high-quality gene expression speed data, but ultimately our final time course protocol ensured that we got robust, reproducible data that we could feel confident in.

Beyond simply tracking gene expression over time to obtain basic speed measurements, we were able to successfully measure and exert control over more complex aspects of the temporal dynamics of gene expression. Informed by our mathematical model, we not only predicted but executed a functional incoherent feedforward loop enabling control over pulse-like behavior using our protein degradation system. To that end, we provided a thorough characterization of gene expression dynamics over time, comparing simultaneous induction to pre-induction of protease to yield qualitatively different results.

We believe that our team should be considered for this award not only for the quality of our characterization but also for our choice of what properties to measure. Rigorous measurements of the temporal aspects of genetic processes are overshadowed by an emphasis on the characterization of concentration- or strength-dependent features. This bias is so strong that even though the mf-Lon protein degradation tags have been available to the community since 2014, no direct experimental demonstrations of the relationship between genetic response speed and degradation rate existed in the synthetic biology literature before our project. By emphasizing the importance of temporal circuit dynamics and providing future iGEM teams with a modular, simple and predictable system to control and measure those dynamical properties by altering gene expression speed, our project helps to drive iGEM forward as a continual innovator in making the kinds of enabling measurements which open the door to new technologies. We also hope that this characterization can be used as a spring-board to do further single cell characterizations using our new inverted microscope. We've already refined our methodologies, and have taken some videos of our pTet mScarlet-I constructs. This should enable us to track single cells over a longer period of time, and account for heterogeneous circuit behavior in single cells.

Finally, we ensured throughout our projects that our graphs were designed to depict the underlying data in as genuine a way as possible. In particular, following the guidelines in [3], we chose specifically to replace all instances of bar graphs with univariate scatterplots, so that others would be able to explicitly see the inter-replicate variation in our measurements. Additionally, because single-cell fluorescence measurements are expected to be log-normally distributed [4], we chose to report our results using the geometric mean and geometric standard deviation in order to ensure that our statistical measures are consonant with our theoretical understanding of the processes which generated our observations.

References

[1] Eyal Gur and Robert T Sauer. Evolution of the ssra degradation tag in mycoplasma: specificity switch to a different protease. Proceedings of the National Academy of Sciences, 105(42):16113– 16118, 2008.

[2] D Ewen Cameron and James J Collins. Tunable protein degradation in bacteria. Nature biotechnology, 32(12):1276–1281, 20

[3] Weissgerber TL, Milic NM, Winham SJ, Garovic VD. Beyond bar and line graphs: time for a new data presentation paradigm. PLoS biology. 2015 Apr 22;13(4):e1002128.

[4] Beal J. Biochemical complexity drives log-normal variation in genetic expression. Engineering Biology. 2017 Jul 11;1(1):55-60.

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-								Measurement
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-								We performed a number of rigorous and thorough measurements, on each component of the circuit control toolbox. We measured the effect of the insulating ribozyme <a href= "https://2016.igem.org/Team:William_and_Mary/RiboJ">  RiboJ</a> on relative fluorescence, and confirmed that it does indeed insulate proteins from genetic context. <b>(Figure 1)</b>. We also measured RiboJ’s effect on absolute expression, and discovered that it increases absolute expression <b> (Figure 2)</b>. We created a RiboJ promoter library containing the Anderson Library of Promoters as well as additional inducible promoters, this library will form the basis for an ongoing rigorous characterization of the effect of RiboJ on absolute fluorescence.
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-								We also characterized the community collection of <a href= "https://2016.igem.org/Team:William_and_Mary/RBS">RBSs</a> under the inducible promoter pLacO-1 <b>(Figure 3)</b>. While our characterization was mostly in line with existing values, it highlighted the need to characterize over a range of conditions rather than at just one level of expression. Since our characterization was insulated using RiboJ, it should be applicable in all genetic contexts, even though past characterizations may not be. Additionally, we collaborated with UPitt and Alverno to measure our RBS characterization parts in cell free systems <b>(Figure 4 and 5)</b>. Characterization was also performed on the <a href= "https://2016.igem.org/Team:William_and_Mary/Interlab>">Interlab </a> parts using FACS.
-								<p class='large' style="padding-left:40px; text-indent: 50px;">
-								 Finally, we performed the first iGEM characterization of two new parts, which allow for orthogonal control over the output of a given arbitrary circuit. We replicated and characterized both the original and our improved <a href= "https://2016.igem.org/Team:William_and_Mary/Synthetic_Enhancer"> synthetic enhancer </a> on the Biobrick Backbone, which allows for multistate output beyond a normal transfer function <b>(Figures 6-7)</b>. We also performed characterization of the effect of <a href= "https://2016.igem.org/Team:William_and_Mary/Binding_Array">molecular titration</a> on transfer functions by using a TetO array to cause a leftward shift <b>(Figure 8)</b>. A <a href= "https://2016.igem.org/Team:William_and_Mary/Model">model</a> was made based on literature values, and our characterization matched our models prediction <b>(Figure 9)</b>.
-								</p>
-								<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;">
-									<img src="https://static.igem.org/mediawiki/2016/9/95/T--William_and_Mary--RiboJ-Convergencea.svg" width="800px">
-								</p>
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-								<b>Figure 1A</b>
-								<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;">
+</head>
-									<img src="https://static.igem.org/mediawiki/2016/1/10/T--William_and_Mary--RiboJ-ConvergenceB.svg" width="800px">
-								</p>
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-								<b>Figure 1B</b>
-                                                                 <!--FIGURE CAPTION-->
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-								<b>Figure 1A and B:</b> RiboJ insulates transfer functions from genetic context, collapsing the relative transfer functions of two different reporters. 								</p>
-								<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;">
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-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-								<b>Figure 2A</b>
-								<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;">
+<body>
-									<img src="https://static.igem.org/mediawiki/2016/e/e3/T--William_and_Mary--RiboJ-abs-B.svg" width="800px">
+<br></br>
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-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-								<b>Figure 2B</b>
-                                                                 <!--FIGURE CAPTION-->
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-								<b>Figure 2A and B:</b> RiboJ has divergent effects on absolute expression on different promoters. RiboJ decreases absolute fluorescence under the promoter pLacO-1(A), but increases it under pTac (B).								</p>
+<center><div style='padding-right: 60px;'><img src="https://static.igem.org/mediawiki/2017/3/34/T--William_and_Mary--measurement39.jpeg" width="350px"/></div></center>
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-									<img src="https://static.igem.org/mediawiki/2016/f/f0/T--William_and_Mary--Rbs-plot.svg" width="800px">
-								</p>
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-                                                                 <!--FIGURE CAPTION-->
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-								<b>Figure 3:</b> Relative sfGFP characterization of the Community Collection of RBSs with RiboJ using the inducible promter pLacO-1.  								</p>
+<div style='padding-top: 80px;'></div>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;">
+<div style = 'padding-left: 14%; padding-bottom: 10px;font-size: 25px' ><b>Measuring Temporal Dynamics</b></div>
-									<img src="https://static.igem.org/mediawiki/2016/5/58/T--William_and_Mary--Rbs-5.png" width="800px">
-								</p>
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-                                                                 <!--FIGURE CAPTION-->
+<div style='background: #808080; margin: 0px 14% 20px 14%; height:1px;></div>
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-								<b>Figure 4:</b> Characterization (blinded) of our RBS library by University of Pittsburgh in their cell free system S30. 								</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;">
+<div style='padding-top: 0px;'></div>
-									<img src="https://static.igem.org/mediawiki/2016/b/b6/T--William_and_Mary--RBS-F6a-V1-.png" width="800px">
+<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;' >
-								</p>
+For our project this year we successfully designed and characterized an accessible and modular degradation-based system for the control of gene expression speed. Utilizing an <i>E. coli</i> orthogonal tmRNA degradation system consisting of a  <i>Mesoplasma florum</i> Lon (mf-Lon) protease [1] and highly engineered tmRNA tags [2] with a range of protease affinities, we were able to engineer gene expression speed change driven by degradation rate. To do this we first had developed a time course measurement protocol that would allow robust and reproducible single cell measurements. Developing this method was time intensive, and meant that we spent a large portion of the summer without getting high-quality gene expression speed data, but ultimately our final <a href='https://2017.igem.org/Team:William_and_Mary/Protocols' style='text-decoration: underline;'>time course protocol</a> ensured that we got <a href='https://2017.igem.org/Team:William_and_Mary/Results' style='text-decoration: underline;'>robust, reproducible data</a> that we could feel confident in.
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
+</div>
+<div style='padding-top: 15px;'></div>
+<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;'> Beyond simply tracking gene expression over time to obtain <a href="https://2017.igem.org/Team:William_and_Mary/Speed_Control"><u>basic speed measurements</u></a>, we were able to successfully measure and exert control over more <a href="https://2017.igem.org/Team:William_and_Mary/Readjustment"><u>complex aspects</u></a> of the temporal dynamics of gene expression. Informed by our <a href="https://2017.igem.org/Team:William_and_Mary/Model"><u>mathematical model</u></a>, we not only predicted but executed a functional <a href="https://2017.igem.org/Team:William_and_Mary/Dynamic_Control"><u>incoherent feedforward loop</u></a> enabling control over pulse-like behavior using our protein degradation system. To that end, we provided a thorough characterization of gene expression dynamics over time, comparing simultaneous induction to pre-induction of protease to yield qualitatively different results. </div>
-                                                                 <!--FIGURE CAPTION-->
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-								<b>Figure 5:</b> Characterization (blinded) of our RBS library by Team Alverno in their cell free system TX-TL.
- 								</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;">
+<div style='padding-top: 15px;'></div>
-									<img src="https://static.igem.org/mediawiki/2016/7/70/T-William_and_Mary--SE_Fig5.PNG" width="800px">
+<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;'>
-								</p>
+We believe that our team should be considered for this award not only for the quality of our characterization but also for our choice of what properties to measure. Rigorous measurements of the temporal aspects of genetic processes are overshadowed by an emphasis on the characterization of concentration- or strength-dependent features. This bias is so strong that even though the mf-Lon protein degradation tags have been available to the community since 2014, no direct experimental demonstrations of the relationship between genetic response speed and degradation rate existed in the synthetic biology literature before our project. By emphasizing the importance of temporal circuit dynamics and providing future iGEM teams with a modular, simple and predictable system to control and measure those dynamical properties by altering gene expression speed, our project helps to drive iGEM forward as a continual innovator in making the kinds of enabling measurements which open the door to new technologies. We also hope that this characterization can be used as a spring-board to do further single cell characterizations using our new inverted microscope. We've already refined our methodologies, and have taken some <a href='https://2017.igem.org/Team:William_and_Mary/Microscopy' style='text-decoration: underline;'>videos</a> of our pTet mScarlet-I constructs. This should enable us to track single cells over a longer period of time, and account for heterogeneous circuit behavior in single cells.
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
+</div>
-                                                                 <!--FIGURE CAPTION-->
+<div style='padding-top: 15px;'></div>
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
+<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;'>
-								<b>Figure 6:</b> Characterization of improved synthetic enhancer in Biobrick Backbone.
+Finally, we ensured throughout our projects that our graphs were designed to depict the underlying data in as genuine a way as possible. In particular, following the guidelines in [3], we chose specifically to replace all instances of bar graphs with univariate scatterplots, so that others would be able to explicitly see the inter-replicate variation in our measurements. Additionally, because single-cell fluorescence measurements are expected to be log-normally distributed [4], we chose to report our results using the geometric mean and geometric standard deviation in order to ensure that our statistical measures are consonant with our theoretical understanding of the processes which generated our observations.</div>
- 								</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;">
-									<img src="https://static.igem.org/mediawiki/2016/1/1a/T--William_and_Mary--Updated_synthetic_enhancer_overlay.svg" width="800px">
-								</p>
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-                                                                 <!--FIGURE CAPTION-->
+<div style='padding-top: 40px;'></div>
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
+<div style = 'padding-left: 14%; padding-bottom: 10px;font-size: 25px' ><b>References</b></div>
-								<b>Figure 7:</b> Comparison of characterization of original synthetic enhancer from Amit et al. 2012 and improved synthetic enhancer on Biobrick Backbone.
- 								</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;">
+<div style='background: #808080; margin: 0px 14% 20px 14%; height:1px;></div>
-									<img src="https://static.igem.org/mediawiki/2016/d/d8/T--William_and_Mary--tetO_array_poster.png" width="800px">
-								</p>
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-                                                                 <!--FIGURE CAPTION-->
+<div style='padding-top: 0px;'></div>
-								<p class='large' style="padding-left:40px; text-indent: 50px; color:#A9A9A9; font-size: .75em !important;">
-								<b>Figure 8:</b> Effect of repeat TetO array on the induction curve of pTet GFP
- 								</p>
+<div style='padding-top: 10px;'></div>
+<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 0px;line-height: 25px;' >
+[1] Eyal Gur and Robert T Sauer. Evolution of the ssra degradation tag in mycoplasma: specificity switch to a different protease. Proceedings of the National Academy of Sciences, 105(42):16113– 16118, 2008.
+</div>
+<div style='padding-top: 15px;'></div>
+<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 0px;line-height: 25px;' >
+[2] D Ewen Cameron and James J Collins. Tunable protein degradation in bacteria. Nature biotechnology, 32(12):1276–1281, 20
+</div>
-<div align="center">
+<div style='padding-top: 15px;'></div>
-									<h3 style='padding-top: 50px; padding-bottom: 50px;'>FACS Plots</h3>
+<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 0px;line-height: 25px;' >
-								</div>
+[3] Weissgerber TL, Milic NM, Winham SJ, Garovic VD. Beyond bar and line graphs: time for a new data presentation paradigm. PLoS biology. 2015 Apr 22;13(4):e1002128.
+</div>
+<div style='padding-top: 15px;'></div>
+<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 0px;line-height: 25px;' >
+[4] Beal J. Biochemical complexity drives log-normal variation in genetic expression. Engineering Biology. 2017 Jul 11;1(1):55-60.
+</div>
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+</body>
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-<p class='large' style="padding-left:40px; text-indent: 50px; font-size: .75em !important;">RBS B0029 2</p>
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-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/0/08/T--William_and_Mary--R-29-3-1000.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/3/38/T--William_and_Mary--R-29-3-10000.png" width="800px"></p>
-<p class='large' style="padding-left:40px; text-indent: 50px; font-size: .75em !important;">RBS B0030 1</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/2/25/T--William_and_Mary--R-30-1-0.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/d/de/T--William_and_Mary--R-30-1-1.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/1/1c/T--William_and_Mary--R-30-1-10.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/e/e7/T--William_and_Mary--R-30-1-100.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/7/76/T--William_and_Mary--R-30-1-1000.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/b/b6/T--William_and_Mary--R-30-1-10000.png" width="800px"></p>
-<p class='large' style="padding-left:40px; text-indent: 50px; font-size: .75em !important;">RBS B0030 2</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/2/25/T--William_and_Mary--R-30-2-0.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/3/32/T--William_and_Mary--R-30-2-1.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/a/a4/T--William_and_Mary--R-30-2-10.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/8/8d/T--William_and_Mary--R-30-2-100.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/e/e4/T--William_and_Mary--R-30-2-1000.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/a/a8/T--William_and_Mary--R-30-2-10000.png" width="800px"></p>
-<p class='large' style="padding-left:40px; text-indent: 50px; font-size: .75em !important;">RBS B0030 3</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/9/9f/T--William_and_Mary--R-30-3-0.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/3/3a/T--William_and_Mary--R-30-3-1.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/f/f8/T--William_and_Mary--R-30-3-10.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/1/16/T--William_and_Mary--R-30-3-100.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/2/28/T--William_and_Mary--R-30-3-1000.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/4/43/T--William_and_Mary--R-30-3-10000.png" width="800px"></p>
-<p class='large' style="padding-left:40px; text-indent: 50px; font-size: .75em !important;">RBS B0031 1</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/a/a5/T--William_and_Mary--R-31-1-0.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/b/b2/T--William_and_Mary--R-31-1-1.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/b/bb/T--William_and_Mary--R-31-1-10.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/f/f1/T--William_and_Mary--R-31-1-100.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/9/93/T--William_and_Mary--R-31-1-1000.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/3/36/T--William_and_Mary--R-31-1-10000.png" width="800px"></p>
-<p class='large' style="padding-left:40px; text-indent: 50px; font-size: .75em !important;">RBS B0031 2</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/2/22/T--William_and_Mary--R-31-2-0.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/f/fd/T--William_and_Mary--R-31-2-1.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/e/e7/T--William_and_Mary--R-31-2-10.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/7/76/T--William_and_Mary--R-31-2-100.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/7/71/T--William_and_Mary--R-31-2-1000.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/e/e5/T--William_and_Mary--R-31-2-10000.png" width="800px"></p>
-<p class='large' style="padding-left:40px; text-indent: 50px; font-size: .75em !important;">RBS B0031 3</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/c/c2/T--William_and_Mary--R-31-3-0.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/f/f8/T--William_and_Mary--R-31-3-1.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/8/8a/T--William_and_Mary--R-31-3-10.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/6/6b/T--William_and_Mary--R-31-3-100.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/d/da/T--William_and_Mary--R-31-3-1000.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/8/8a/T--William_and_Mary--R-31-3-10000.png" width="800px"></p>
-<p class='large' style="padding-left:40px; text-indent: 50px; font-size: .75em !important;">RBS B0032 1</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/5/5a/T--William_and_Mary--R-32-1-0.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/b/b1/T--William_and_Mary--R-32-1-1.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/f/f4/T--William_and_Mary--R-32-1-10.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/9/92/T--William_and_Mary--R-32-1-100.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/8/87/T--William_and_Mary--R-32-1-1000.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/2/2d/T--William_and_Mary--R-32-1-10000.png" width="800px"></p>
-<p class='large' style="padding-left:40px; text-indent: 50px; font-size: .75em !important;">RBS B0032 1</p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/5/5a/T--William_and_Mary--R-32-1-0.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/b/b1/T--William_and_Mary--R-32-1-1.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/f/f4/T--William_and_Mary--R-32-1-10.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/9/92/T--William_and_Mary--R-32-1-100.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/8/87/T--William_and_Mary--R-32-1-1000.png" width="800px"></p>
-<p style="text-align: center; padding-top: 30px; padding-bottom: 30px;"><img src="https://static.igem.org/mediawiki/2016/2/2d/T--William_and_Mary--R-32-1-10000.png" width="800px"></p>
-<p class='large' style="padding-left:40px; text-indent: 50px; font-size: .75em !important;">Email igem@wm.edu if you want to see the rest of our more than 200 FACS plots!</p>
-<div align="center">
-									<h3 style='padding-top: 50px; padding-bottom: 50px;'>References</h3>
-								</div>
-								<p class='large' style="padding-left:70px; padding-bottom: 30px;">
-								<b>1.</b> C. Lou, B. Stanton, Y.-J. Chen, B. Munsky, C. A. Voigt, Ribozyme-based insulator parts buffer synthetic circuits from
-								genetic context. Nat. Biotechnol. 30, 1137 (2012). doi:10.1038/nbt.2401 pmid:23034349
-								</p>
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