Difference between revisions of "Team:HBUT-China/InterLab"

Latest revision as of 02:47, 1 November 2017

OVERVIEW

The goal of Interlab is to establish a GFP measurement protocol based on engineering principles that anyone with a plate reader can use in their lab. Reliable and repeatable measurement is a key component to all engineering disciplines. The same holds true for synthetic biology, which has also been called engineering biology. However, the ability to repeat measurements in different labs has been difficult. So, through INTERLAB every team use the same exact protocol around the world to produce common, comparable units for measuring GFP with different plate readers.

This year, Interlab has provided a standard protocol for making measurements in a plate reader a flow cytometer. We are going to test some Regulatory and RBS devices (BCDs) that are intended to make gene expression more precise and reliable. All biobricks to be tested have been sent in plasmid form. An excel sheet has been provided, to facilitate ease of data processing.

PARTS

We are provided with the eight plasmids containing the composite parts we will need for the Interlab Study. These plasmids include six test devices, along with two controls. For the six test devices, the GFP (E0040) and the terminator (B0010, BOO12) are common. They differ in promoter, which are J23101, J23106, J23117. The negative control only has RBS(R0040). The positive control has the other promoter (J23151) and terminator(B0032). The strength of the promoter or RBS can then be compared as it is directly proportional to the amount of fluorescence.

table.1 parts of 8 biobricks

Table2.variant RFP（au）

PROTOCOL

1.Making competent cells http://parts.igem.org/Help:Protocols/Competent_Cells

We tried twice then made competent cells with high transformation efficiency.

Fig.1 1μL of 100pg/μL BBa-J04450 to transform the competent cells we made

2.Resuspension of plasmid DNA

We resuspended DNA Distribution Kit well with 10μL dH2O, pipetted up and down several times, let it sit for a few minutes, and and the resuspension turned red.

3.Transformation

http://parts.igem.org/Help:Protocols/Transformation

We did transformation four times because device1 was too difficult to transformhad difficulties transforming. We only produced one colony for the first three transformations. For the last transformation, we extended the heat shock to 90 seconds, successfully producing great colonies with device1. Stored all plates at 4℃ after picking a single colony.

Fig.2 device1 culture after extending heat shock time to 90s

4.Colony PCR

We picked a single colony from each plate and did a colony PCR to verify part size. Grew cell cultures then added 30% glycerin to the ratio of 1 to 1 before storing at ﹣80℃.

Table3.PCR system and method

Fig3. colony PCR product of 16 colonys

After colony PCR, resequenced the colonies, and the results were positive.

5.Sampling

https://2017.igem.org/Competition/InterLab_Study/Plate_Reader

We chose the plate reader for sampling and set Excitation of 485nm, Emission 540nm, the rest is the same as the method in the line.

Result (check out here)

We found that the promoter had a great effect on the expression of GFP, whereas RBS had little effect on GFP. Interestingly, the E. coli with high expression of GFP had low OD value.

fig4.the fluorescence intensity of 16 colony

Fig5.the growth curve of 16 colonys

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@@ Line 15: / Line 16: @@
        <ul>
           <li><img src="https://static.igem.org/mediawiki/2017/5/55/HBUT-logo2.png" height="45"/></li>
-         <li><a href='https://2017.igem.org/Team:HBUT-China'>HOME</a></li>
-         <li class='has-sub'><a href='#'>TEAM</a>
-            <ul>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Team'>Team</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Collaborations'>Collaborations</a></li>
-            </ul>
-         </li>
-         <li class='has-sub'><a href='javascript:;'>PROJECT</a>
-            <ul>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Description'>Description</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Design'>Design</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Experiments'>Experiments</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Notebook'>Notebook</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/InterLab'>InterLab</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Contribution'>Contribution</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Model'>Model</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Results'>Results</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Demonstrate'>Demonstrate</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Improve'>Improve</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Attributions'>Attributions</a></li>
-            </ul>
-         </li>
-         <li class='has-sub'><a href='javascript:;'>PARTS</a>
-            <ul>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Parts'>Parts</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Basic_Parts'>Basic Parts</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Composite_Parts'>Composite Parts</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Part_Collection'>Part Collection</a></li>
-            </ul>
-         </li>
-         <li><a href='https://2017.igem.org/Team:HBUT-China/SAFETY'>SAFETY</a></li>
-         <li class='has-sub'><a href='javascript:;'>HUMAN PRACTICES </a>
-            <ul>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Silver_HP'>Silver HP</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Integrated_and_Gold'>Integrated and Gold</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Public_Engagement'>Public Engagement</a></li>
-            </ul>
-         </li>
-         <li class='has-sub'><a href='javascript:;'>AWARDS</a>
-            <ul>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Applied_Design'>Applied Design</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Entrepreneurship'>Entrepreneurship</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Hardware'>Hardware</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Measurement'>Measurement</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Model'>Model</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Plant'>Plant</a></li>
-               <li ><a href='https://2017.igem.org/Team:HBUT-China/Software'>Software</a></li>
-            </ul>
-         </li>
-         <li><a href='https://2017.igem.org/Team:HBUT-China/Judging_Form'>Judging Form</a>
        </ul>
     </div>
@@ Line 94: / Line 46: @@
 	            </div>
 	            <small class="bigtitle">OVERVIEW</small>
-	            <p>The goal of Interlab is to establish a GFP measurement protocol based on engineering principles that anyone with a plate reader can use in their lab.Reliable and repeatable measurement is a key component to all engineering disciplines. The same holds true for synthetic biology, which has also been called engineering biology.However, the ability to repeat measurements in different labs has been difficult. So ,through INTERLAB every team use the same exact protocol around the world to produce common, comparable units for measuring GFP with different plate readers.</p>
+	            <p>The goal of Interlab is to establish a GFP measurement protocol based on engineering principles that anyone with a plate reader can use in their lab. Reliable and repeatable measurement is a key component to all engineering disciplines. The same holds true for synthetic biology, which has also been called engineering biology. However, the ability to repeat measurements in different labs has been difficult. So, through INTERLAB every team use the same exact protocol around the world to produce common, comparable units for measuring GFP with different plate readers.</p>
-	            <p>This year,interlab has provided a standard protocol for making measurements in a plate readeror a flow cytometer. We are going to test some Regulatory and RBS devices (BCDs) that are intended to make gene expression more precise and reliable. All biobricks to be tested have been sent in plasmid form. An excel sheet has been provided, to facilitate ease of data processing. </p>
+	            <p>This year, Interlab has provided a standard protocol for making measurements in a plate reader a flow cytometer. We are going to test some Regulatory and RBS devices (BCDs) that are intended to make gene expression more precise and reliable. All biobricks to be tested have been sent in plasmid form. An excel sheet has been provided, to facilitate ease of data processing.</p>
 	            <small class="bigtitle">PARTS</small>
-	            <p>we are provided with the eight plasmids containing the composite parts we will need for the InterLabStudy.These plasmids include six test devices,along with two controls.For the six test devices,the GFP (E0040) and the terminator (B0010,BOO12) are common. They differ in promotor, which are J23101 ,J23106,J23117.The negtive control only has RBS(R0040).The positive control has other Promotor(J23151) and terminator(B0032).The strength of the promotor or RBS can be then compared as it is directly proportional to the amount of fluorescence. </p>
+	            <p>We are provided with the eight plasmids containing the composite parts we will need for the Interlab Study. These plasmids include six test devices, along with two controls. For the six test devices, the GFP (E0040) and the terminator (B0010, BOO12) are common. They differ in promoter, which are J23101, J23106, J23117. The negative control only has RBS(R0040). The positive control has the other promoter (J23151) and terminator(B0032). The strength of the promoter or RBS can then be compared as it is directly proportional to the amount of fluorescence. </p>
-	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab1.png" class="img-reasponsive" style="text-align:center">
+<div align="center" style="margin:10px 0;">
-	            <p class="photodetail" style="text-align:center">table.1 parts of 8 biobricks</p>
+	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab1.png">
-	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab2.png" class="img-reasponsive" style="text-align:center">
+</div>
-	            <p class="photodetail" style="text-align:center">Table2.variant RFP（au）</p>
+	            <p class="imgdesc">table.1 parts of 8 biobricks</p>
+<div align="center" style="margin:10px 0;">
+	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab2.png" >
+</div>
+	            <p class="imgdesc" >Table2.variant RFP（au）</p>
 	            <small class="bigtitle">PROTOCOL</small>
-	            <p class="addbold">1.Making competent cells http://parts.igem.org/Help:Protocols/Competent_Cells</p>
+	            <p class="addbold">1.Making competent cells <a href="http://parts.igem.org/Help:Protocols/Competent_Cells">http://parts.igem.org/Help:Protocols/Competent_Cells</a></p>
-	            <p>We tried twice to make competent cells with high transformation efficiency.</p>
+	            <p>We tried twice then made competent cells with high transformation efficiency.</p>
-	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab3.png" class="img-reasponsive">
+<div align="center" style="margin:10px 0;">
-	            <p class="photodetail">Fig.1 1μL of 100pg/μL BBa-J04450 to transform the competent cells we made</p>
+	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab3.png">
+</div>
+	            <p class="imgdesc">Fig.1 1μL of 100pg/μL BBa-J04450 to transform the competent cells we made</p>
 	            <p class="addbold">2.Resuspension of plasmid DNA</p>
-	           	<p>Resuspended DNA Distribution Kit well with 10μL  dH2O.Pipet up and down several times,sit for a few minutes and the resuspension turned red.</p>
+	           	<p>We resuspended DNA Distribution Kit well with 10μL dH2O, pipetted up and down several times, let it sit for a few minutes, and and the resuspension turned red.</p>
 	            <p class="addbold">3.Transformation</p>
 	            <p><a href="http://parts.igem.org/Help:Protocols/Transformation">http://parts.igem.org/Help:Protocols/Transformation</a></p>
-	            <p>We did transformation four times because device1 was too difficult to transform.We got only one colony for the first three transformation.For the last transformation, we extended the heat shock to 90 seconds,so we got great colonies of device1.Store all plates at 4℃ after picking single colony.</p>
+	            <p>We did transformation four times because device1 was too difficult to transformhad difficulties transforming. We only produced one colony for the first three transformations. For the last transformation, we extended the heat shock to 90 seconds, successfully producing great colonies with device1. Stored all plates at 4℃ after picking a single colony.</p>
-	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab4.png" class="img-reasponsive" style="text-align:center">
+<div align="center" style="margin:10px 0;">
-	            <p class="photodetail" style="text-align:center">Fig.2 device1 culture after extending heat shock time to 90s</p>
+	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab4.png">
+</div>
+	            <p class="imgdesc">Fig.2 device1 culture after extending heat shock time to 90s</p>
 	            <p class="addbold">4.Colony PCR</p>
-	            <p>Pick a single colony from each plate and do a colony PCR to verify part size.Grow up cell cultures thenadd 30%glycerin to the ratio of 1 to 1 before storing at ﹣80℃. </p>
+	            <p>We picked a single colony from each plate and did a colony PCR to verify part size. Grew cell cultures then added 30% glycerin to the ratio of 1 to 1 before storing at ﹣80℃.</p>
-	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab5.png" class="img-reasponsive" style="text-align:center">
+<div align="center" style="margin:10px 0;">
-	            <p class="photodetail" style="text-align:center">Table3.PCR system and method</p>
+	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab5.png">
-	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab6.png" class="img-reasponsive" style="text-align:center">
+</div>
-	            <p class="photodetail" style="text-align:center">Fig3. colony PCR product of 16 colonys</p>
+	            <p class="imgdesc">Table3.PCR system and method</p>
-	            <p>After colony PCR,sesequenced the colonies,and the results were positive.</p>
+<div align="center" style="margin:10px 0;">
+	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab6.png">
+</div>
+	            <p class="imgdesc">Fig3. colony PCR product of 16 colonys</p>
+	            <p>After colony PCR, resequenced the colonies, and the results were positive.</p>
 	            <p class="addbold">5.Sampling<p>
-	            <p>https://2017.igem.org/Competition/InterLab_Study/Plate_Reader</p>
+	            <a href="https://2017.igem.org/Competition/InterLab_Study/Plate_Reader">https://2017.igem.org/Competition/InterLab_Study/Plate_Reader</a>
-	            <p>We chose plate reader for sampling and set Excitation of 485nm, Emission 540nm，the rest is the same as the method in the line.</p>
+	            <p>We chose the plate reader for sampling and set Excitation of 485nm, Emission 540nm, the rest is the same as the method in the line.</p>
 	            <p>Result (check out here)</p>
-	            <p>We found that the promoter have a great effect on the expression of GFP, whereas RBS had little effect on GFP.Interestingly,the E.coli with high expression of GFP have low OD value. </p>
+	            <p>We found that the promoter had a great effect on the expression of GFP, whereas RBS had little effect on GFP. Interestingly, the E. coli with high expression of GFP had low OD value.  </p>
-	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab7.png" class="img-reasponsive" style="text-align:center">
+<div align="center" style="margin:10px 0;">
-	            <p class="photodetail" style="text-align:center">fig4.the fluorescence intensity of 16 colony</p>
+	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab7.png">
-	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab8.png" class="img-reasponsive" style="text-align:center">
+</div>
-	            <p class="photodetail" style="text-align:center">Fig5.the growth curve of 16 colonys</p>
+	            <p class="imgdesc">fig4.the fluorescence intensity of 16 colony</p>
+<div align="center" style="margin:10px 0;">
+	            <img src="http://123.207.175.242/csdn/images/interlabimg/interlab8.png">
+</div>
+	            <p class="imgdesc">Fig5.the growth curve of 16 colonys</p>
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