Difference between revisions of "Team:Baltimore Bio-Crew/Results"

 
(10 intermediate revisions by 2 users not shown)
Line 9: Line 9:
 
<style>
 
<style>
  
article{
 
width: 50%;
 
margin:0 auto;
 
  
}
+
article {
article p{
+
  font-size: 16px;
  font-size: 20px;
+
 
font-style: italic;
 
font-style: italic;
 
padding-top: 10px;
 
padding-top: 10px;
Line 21: Line 17:
 
font-family: 'Abel', san-serif;
 
font-family: 'Abel', san-serif;
 
color: black;
 
color: black;
 
+
width: 50%;
 +
margin:0 auto;
  
 
}
 
}
Line 31: Line 28:
 
footer{
 
footer{
 
width:60%;
 
width:60%;
margin-left:35%;
+
margin-left:30%;
 
}
 
}
  
Line 102: Line 99:
 
                         <h3>Results</h3>
 
                         <h3>Results</h3>
 
</header>
 
</header>
 +
<article>
 +
 +
Working hard, we managed to successfully clone the Esterase gene into E.coli. Both colony PCR and sequencing were positive for the CE 5 esterase clone. However, Lipase was not successfully cloned and the sequences came up negative and truncated.</article>
 +
<article>
 +
<img src="https://static.igem.org/mediawiki/2017/e/ee/BaltimoreBiocrewFigure1.png" style="width:960px; height: 540px;"><!--original size: 1,920 × 1,080 pixels-->
 +
</article>
 +
<article>
 +
Due to the negative results with the lipase, we hypothesized that the lipase enzyme was toxic to the strain of E. coli we were using, causing it to reject the DNA.
 +
</article>
 +
<article>
 +
We started inducing the positive esterase clone to produce protein, and running the protein produced on a protein gel after purifying on a nickel column. After running multiple protein gels with the esterase, no positive results were found.
 +
</article>
 +
<article>
 +
Because of this, we hypothesized that the E. coli cells were not producing the esterase because the enzyme was also harmful to the cells.
 +
</article>
 
<article>
 
<article>
 
<img src="https://static.igem.org/mediawiki/2017/5/5e/T--Baltimore_Bio-Crew--results_fig2.jpg" style="width:960px; height: 540px;"><!--original size: 1,920 × 1,080 pixels-->
 
<img src="https://static.igem.org/mediawiki/2017/5/5e/T--Baltimore_Bio-Crew--results_fig2.jpg" style="width:960px; height: 540px;"><!--original size: 1,920 × 1,080 pixels-->
 +
</article>
 +
<article>
 +
To bypass the cell issue and test whether or not our constructs could actually produce the protein, we decided to test the constructs and biobricks on their own by translating them using a cell free kit, and then running the product of that on a protein gel. The protein gel results after the cell free kit were inconclusive, possibly because the cell just wasn’t producing enough protein to show up on the gel.
 +
</article>
 +
<article>
 
<img src="https://static.igem.org/mediawiki/2017/e/ec/T--Baltimore_Bio-Crew--results_fig3.jpg" style="width:960px; height: 540px;"><!--original size: 1,920 × 1,080 pixels-->
 
<img src="https://static.igem.org/mediawiki/2017/e/ec/T--Baltimore_Bio-Crew--results_fig3.jpg" style="width:960px; height: 540px;"><!--original size: 1,920 × 1,080 pixels-->
 +
</article>
 +
 +
 +
<article>
 +
We decided to run the cell free kit products through a FDA enzyme test. Fluorescence was seen, indicating that enzyme was being produced! The results of this test are shown on a bar graph below
 +
</article>
 +
<article>
 
<img src="https://static.igem.org/mediawiki/2017/3/38/T--Baltimore_Bio-Crew--results_fig4.jpg" style="width:960px; height: 540px;"><!--original size: 1,920 × 1,080 pixels-->
 
<img src="https://static.igem.org/mediawiki/2017/3/38/T--Baltimore_Bio-Crew--results_fig4.jpg" style="width:960px; height: 540px;"><!--original size: 1,920 × 1,080 pixels-->
 +
</article>
 +
<article>
 +
Additional tests will need to be done, but the FDA test indicated that our constructs can produce protein, even if the enzymes may not be able to be produced in E. coli
 +
</article>
  
<p>
 
Our goal for this project is to genetically engineer E. coli bacteria that can break down plastic. These bacteria could have many different applications, such as: degrading plastic waste from labs that cannot be recycled, being used in a filter to catch and degrade micro plastic fibers from laundry, and breaking down plastic in a marine environment into harmless molecules. We made a lot of progress last year, and this year we plan to build on that progress.
 
</p>
 
  
  
</article>
 
 
</section>
 
</section>
  
Line 119: Line 143:
 
 
 
<h2>
 
<h2>
Sponsers
+
Sponsors
 
</h2>
 
</h2>
 
<h4>
 
<h4>
Line 134: Line 158:
 
</a>
 
</a>
  
<a href="https://www.rwdfoundation.org/">
+
                                      <a>
   <img src="https://static.igem.org/mediawiki/2016/6/65/T--Baltimore_BioCrew--DeutschFoundation.png" alt="The Robert W. Deutsch Foundation" style="width:100px; height:100px;">
+
   <img src="https://static.igem.org/mediawiki/2017/6/6c/T--Baltimore_Bio-Crew--fabian_kolker_small_icon.png" alt="Fabian Kolker Foundation" style="width:100px; height:100px;">
 
</a>
 
</a>
  
Line 141: Line 165:
 
   <img src="https://static.igem.org/mediawiki/2016/1/1a/T--Baltimore_Biocrew--VWR_Foundation_LOGO.jpeg" alt="VWR Charitable Foundation" style="width:100px; height:100px;">
 
   <img src="https://static.igem.org/mediawiki/2016/1/1a/T--Baltimore_Biocrew--VWR_Foundation_LOGO.jpeg" alt="VWR Charitable Foundation" style="width:100px; height:100px;">
 
</a>
 
</a>
<a href="http://vwrfoundation.org/">
+
<a href="http://www.marylandrecyclingnetwork.org/">
 
   <img src="https://media.licdn.com/mpr/mpr/shrink_200_200/AAEAAQAAAAAAAAI8AAAAJDY0ZDg0ZjlkLWVlMTItNGI1Mi1iNWEwLWYzMDVlYWMwMTZhZg.png" alt="Maryland Recycling Network" style="width:100px; height:100px;">
 
   <img src="https://media.licdn.com/mpr/mpr/shrink_200_200/AAEAAQAAAAAAAAI8AAAAJDY0ZDg0ZjlkLWVlMTItNGI1Mi1iNWEwLWYzMDVlYWMwMTZhZg.png" alt="Maryland Recycling Network" style="width:100px; height:100px;">
 +
</a>
 +
 +
<a href="https://www.rwdfoundation.org/">
 +
  <img src="https://static.igem.org/mediawiki/2016/6/65/T--Baltimore_BioCrew--DeutschFoundation.png" alt="The Robert W. Deutsch Foundation" style="width:100px; height:100px;">
 
</a>
 
</a>
  

Latest revision as of 19:40, 19 November 2017


BUGSS Logo
Home Team Project Results Design Notebook Composite Part Safety HP Silver Experiment Attribution Collaborations Interlab Contributions


BALTIMORE BIO-CREW

Bio-Engineering E.Coli To Degrade Plastic and Save The Baltimore Inner Harbor

Results

Working hard, we managed to successfully clone the Esterase gene into E.coli. Both colony PCR and sequencing were positive for the CE 5 esterase clone. However, Lipase was not successfully cloned and the sequences came up negative and truncated.
Due to the negative results with the lipase, we hypothesized that the lipase enzyme was toxic to the strain of E. coli we were using, causing it to reject the DNA.
We started inducing the positive esterase clone to produce protein, and running the protein produced on a protein gel after purifying on a nickel column. After running multiple protein gels with the esterase, no positive results were found.
Because of this, we hypothesized that the E. coli cells were not producing the esterase because the enzyme was also harmful to the cells.
To bypass the cell issue and test whether or not our constructs could actually produce the protein, we decided to test the constructs and biobricks on their own by translating them using a cell free kit, and then running the product of that on a protein gel. The protein gel results after the cell free kit were inconclusive, possibly because the cell just wasn’t producing enough protein to show up on the gel.
We decided to run the cell free kit products through a FDA enzyme test. Fluorescence was seen, indicating that enzyme was being produced! The results of this test are shown on a bar graph below
Additional tests will need to be done, but the FDA test indicated that our constructs can produce protein, even if the enzymes may not be able to be produced in E. coli