Difference between revisions of "Team:ASIJ Tokyo"

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<div class="column full_size" >
 
<div class="column full_size" >
 
<h2> Project Overview </h2>
 
<h2> Project Overview </h2>
<p>What is PET?  
+
<h3>What is PET? </h4>
 
<p>PET is a combination of two monomers known as ethylene glycol and purified terephthalic acid that when combined form a polymer of polyethylene terephthalate. Considered as the most common type of polyester, PET is a plastic resin often used for packaging consumer products. The problem with PET is that, though it is a convenient material for humans to use, it is also very hard to biodegrade. As PET accumulates in the ecosystems around the world, it poses detrimental effects on habitats worldwide. </p>
 
<p>PET is a combination of two monomers known as ethylene glycol and purified terephthalic acid that when combined form a polymer of polyethylene terephthalate. Considered as the most common type of polyester, PET is a plastic resin often used for packaging consumer products. The problem with PET is that, though it is a convenient material for humans to use, it is also very hard to biodegrade. As PET accumulates in the ecosystems around the world, it poses detrimental effects on habitats worldwide. </p>
 
+
<br>
<li>
+
<p>
http://www.petresin.org/faq.asp</li>
+
http://www.petresin.org/faq.asp
<li>
+
</p>
 +
<p>
 
FAQs - Frequently Asked Questions. FAQs. PET Resin Association, n.d. Web. 07 June
 
FAQs - Frequently Asked Questions. FAQs. PET Resin Association, n.d. Web. 07 June
2016. </li>
+
2016.</p>
http://www.napcor.com/PET/whatispet.html
+
<br>
"What Is PET?" NAPCOR. NAPCOR, n.d. Web. 07 June 2016.
+
<p>
http://www.aaas.org/news/science-newly-identified-bacteria-break-down-tough-plastic
+
http://www.napcor.com/PET/whatispet.html</p>
“Newly Identified Bacteria Break Down Tough Plastic” AAAS.AAAS, n.d. Web. 25 June 2016
+
<p>"What Is PET?" NAPCOR. NAPCOR, n.d. Web. 07 June 2016.</p>
 
+
<br>
Our project focuses on using the enzyme PETase for breaking down PET hoping to increase the efficiency with which the breakdown occurs. PETase uses the process of hydrolysis to breakdown PET, enabling PET as an energy source for the PETase producing strain 201-F6, and its ability to exist in natural surroundings.
+
<p>
 
+
http://www.aaas.org/news/science-newly-identified-bacteria-break-down-tough-plastic</p>
PET (Polyethylene Terephthalate) is a polymeric plastic resin comprised of monomers of ethylene glycol and terephthalic acid.
+
<p>“Newly Identified Bacteria Break Down Tough Plastic” AAAS.AAAS, n.d. Web. 25 June 2016</p>
Inspirations
+
<br>
Using Experimental aids and inspiration from the joint collaboration research project from  Keio University and the Kyoto Institute of Technology, and their research on PET degradation to Terephthalic acid and Ethylene glycol using the bacterium Ideonella Saikaiensis. Experimental description of the experiment: http://www.keio.ac.jp/en/press_releases/2016/cb96u90000005501-att/160330_2.pdf
+
  
 +
<p>Our project focuses on using the enzyme PETase for breaking down PET hoping to increase the efficiency with which the breakdown occurs. PETase uses the process of hydrolysis to breakdown PET, enabling PET as an energy source for the PETase producing strain 201-F6, and its ability to exist in natural surroundings. </p>
  
 +
<p><u>PET (Polyethylene Terephthalate)</u> is a polymeric plastic resin comprised of monomers of ethylene glycol and terephthalic acid. </p>
 +
<br>
  
Our plan and goal
+
<h5>Inspirations</h5>
 +
<p>
 +
Using Experimental aids and inspiration from the joint collaboration research project from  Keio University and the Kyoto Institute of Technology, and their research on PET degradation to Terephthalic acid and Ethylene glycol using the bacterium Ideonella Saikaiensis. Experimental description of the experiment:
 +
<p>http://www.keio.ac.jp/en/press_releases/2016/cb96u90000005501-att/160330_2.pdf </p></p>
  
Combining research methods from previously done experiments with what we learn from our own experiments (though we haven’t done many yet!). Right now we want to isolate the first step of our procedure and increase its efficiency, before delving in any deeper. We do have a goal in mind: to add in a new biobrick using PETase to increase efficiency and usability in the plastic degradation process. 
+
<br>
  
However, we’d like to also think about the practicality of our experiment in the real world. Questions we may ask ourselves during our experimental procedures will help us seek solutions useful if applied in the real world. Such questions include: “how long will the degradation take?” and “will the byproducts of the degradation be harmful in any way to the environment or to humans?”. In regards to the first question, to our current knowledge, 6 weeks is the record for the biodegradation of PET. In our eyes, this is much too inefficient. As a result, our experiment will focus on increasing efficiency of the degradation of plastic through the manipulation of PETase. These are just some examples of the types of questions that we must first consider. Once our confidence in research progresses, we can then focus on individual procedural steps, such as western blot tests, of our project.
+
<h5>
 +
Our Plan and Goal</h5>
  
The end products
+
<p>
 +
Combining research methods from previously done experiments with what we learn from our own experiments (though we haven’t done many yet!). Right now we want to isolate the first step of our procedure and increase its efficiency, before delving in any deeper. We do have a goal in mind: to add in a new biobrick using PETase to increase efficiency and usability in the plastic degradation process.  </p>
 +
<p>
 +
However, we’d like to also think about the practicality of our experiment in the real world. Questions we may ask ourselves during our experimental procedures will help us seek solutions useful if applied in the real world. Such questions include: “how long will the degradation take?” and “will the byproducts of the degradation be harmful in any way to the environment or to humans?”. In regards to the first question, to our current knowledge, 6 weeks is the record for the biodegradation of PET. In our eyes, this is much too inefficient. As a result, our experiment will focus on increasing efficiency of the degradation of plastic through the manipulation of PETase. These are just some examples of the types of questions that we must first consider. Once our confidence in research progresses, we can then focus on individual procedural steps, such as western blot tests, of our project.</p>
 +
<br>
 +
<h5>
 +
The End Products</h5>
 
   
 
   
We’d like to synthesize a plasmid coded to efficiently secrete PETase. The results we hope to see include a larger amount of PET degraded in a shorter amount of time. Hopefully, we can break the record of 6 weeks. This is our main objective in terms of the lab. Theoretically, our project extends to the production of a feedback loop in which we take advantage of tryptophan to create a trp operon system through a series of combined intermediate enzymes. If ever this theory is substantiated, we hope to see bacteria use PET as a food source in which PETase will biodegrade PET when it needs to. In a real world situation, if PET is accumulated in one area where our genetically engineered bacteria have habituated, then we predict that we can leave the PET there to be degraded by the bacteria and basically forget about it. It will disappear eventually. This would requires minimal human and industrial intervention of the disposal of PET. We hope our project will be able to reduce the impact of PET as a pollutant on the environment.  
+
<p>
 +
We’d like to synthesize a plasmid coded to efficiently secrete PETase. The results we hope to see include a larger amount of PET degraded in a shorter amount of time. Hopefully, we can break the record of 6 weeks. This is our main objective in terms of the lab. Theoretically, our project extends to the production of a feedback loop in which we take advantage of tryptophan to create a trp operon system through a series of combined intermediate enzymes. If ever this theory is substantiated, we hope to see bacteria use PET as a food source in which PETase will biodegrade PET when it needs to. In a real world situation, if PET is accumulated in one area where our genetically engineered bacteria have habituated, then we predict that we can leave the PET there to be degraded by the bacteria and basically forget about it. It will disappear eventually. This would requires minimal human and industrial intervention of the disposal of PET. We hope our project will be able to reduce the impact of PET as a pollutant on the environment. </p>
  
  
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<div class="column half_size" >
 
<div class="column half_size" >
<h5>Before you start: </h5>
+
<h20>Before you start: </h20>
 
<p> Please read the following pages:</p>
 
<p> Please read the following pages:</p>
 
<ul>
 
<ul>
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<div class="column half_size" >
 
<div class="column half_size" >
 
<div class="highlight">
 
<div class="highlight">
<h5> Styling your wiki </h5>
+
<h20> Styling your wiki </h20>
 
<p>You may style this page as you like or you can simply leave the style as it is. You can easily keep the styling and edit the content of these default wiki pages with your project information and completely fulfill the requirement to document your project.</p>
 
<p>You may style this page as you like or you can simply leave the style as it is. You can easily keep the styling and edit the content of these default wiki pages with your project information and completely fulfill the requirement to document your project.</p>
 
<p>While you may not win Best Wiki with this styling, your team is still eligible for all other awards. This default wiki meets the requirements, it improves navigability and ease of use for visitors, and you should not feel it is necessary to style beyond what has been provided.</p>  
 
<p>While you may not win Best Wiki with this styling, your team is still eligible for all other awards. This default wiki meets the requirements, it improves navigability and ease of use for visitors, and you should not feel it is necessary to style beyond what has been provided.</p>  
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<div class="column full_size" >
 
<div class="column full_size" >
<h5> Wiki template information </h5>
+
<h20> Wiki template information </h20>
 
<p>We have created these wiki template pages to help you get started and to help you think about how your team will be evaluated. You can find a list of all the pages tied to awards here at the <a href="https://2016.igem.org/Judging/Pages_for_Awards/Instructions">Pages for awards</a> link. You must edit these pages to be evaluated for medals and awards, but ultimately the design, layout, style and all other elements of your team wiki is up to you!</p>
 
<p>We have created these wiki template pages to help you get started and to help you think about how your team will be evaluated. You can find a list of all the pages tied to awards here at the <a href="https://2016.igem.org/Judging/Pages_for_Awards/Instructions">Pages for awards</a> link. You must edit these pages to be evaluated for medals and awards, but ultimately the design, layout, style and all other elements of your team wiki is up to you!</p>
  

Revision as of 22:46, 30 June 2016

Project Overview

What is PET?

PET is a combination of two monomers known as ethylene glycol and purified terephthalic acid that when combined form a polymer of polyethylene terephthalate. Considered as the most common type of polyester, PET is a plastic resin often used for packaging consumer products. The problem with PET is that, though it is a convenient material for humans to use, it is also very hard to biodegrade. As PET accumulates in the ecosystems around the world, it poses detrimental effects on habitats worldwide.


http://www.petresin.org/faq.asp

FAQs - Frequently Asked Questions. FAQs. PET Resin Association, n.d. Web. 07 June 2016.


http://www.napcor.com/PET/whatispet.html

"What Is PET?" NAPCOR. NAPCOR, n.d. Web. 07 June 2016.


http://www.aaas.org/news/science-newly-identified-bacteria-break-down-tough-plastic

“Newly Identified Bacteria Break Down Tough Plastic” AAAS.AAAS, n.d. Web. 25 June 2016


Our project focuses on using the enzyme PETase for breaking down PET hoping to increase the efficiency with which the breakdown occurs. PETase uses the process of hydrolysis to breakdown PET, enabling PET as an energy source for the PETase producing strain 201-F6, and its ability to exist in natural surroundings.

PET (Polyethylene Terephthalate) is a polymeric plastic resin comprised of monomers of ethylene glycol and terephthalic acid.


Inspirations

Using Experimental aids and inspiration from the joint collaboration research project from Keio University and the Kyoto Institute of Technology, and their research on PET degradation to Terephthalic acid and Ethylene glycol using the bacterium Ideonella Saikaiensis. Experimental description of the experiment:

http://www.keio.ac.jp/en/press_releases/2016/cb96u90000005501-att/160330_2.pdf


Our Plan and Goal

Combining research methods from previously done experiments with what we learn from our own experiments (though we haven’t done many yet!). Right now we want to isolate the first step of our procedure and increase its efficiency, before delving in any deeper. We do have a goal in mind: to add in a new biobrick using PETase to increase efficiency and usability in the plastic degradation process.

However, we’d like to also think about the practicality of our experiment in the real world. Questions we may ask ourselves during our experimental procedures will help us seek solutions useful if applied in the real world. Such questions include: “how long will the degradation take?” and “will the byproducts of the degradation be harmful in any way to the environment or to humans?”. In regards to the first question, to our current knowledge, 6 weeks is the record for the biodegradation of PET. In our eyes, this is much too inefficient. As a result, our experiment will focus on increasing efficiency of the degradation of plastic through the manipulation of PETase. These are just some examples of the types of questions that we must first consider. Once our confidence in research progresses, we can then focus on individual procedural steps, such as western blot tests, of our project.


The End Products

We’d like to synthesize a plasmid coded to efficiently secrete PETase. The results we hope to see include a larger amount of PET degraded in a shorter amount of time. Hopefully, we can break the record of 6 weeks. This is our main objective in terms of the lab. Theoretically, our project extends to the production of a feedback loop in which we take advantage of tryptophan to create a trp operon system through a series of combined intermediate enzymes. If ever this theory is substantiated, we hope to see bacteria use PET as a food source in which PETase will biodegrade PET when it needs to. In a real world situation, if PET is accumulated in one area where our genetically engineered bacteria have habituated, then we predict that we can leave the PET there to be degraded by the bacteria and basically forget about it. It will disappear eventually. This would requires minimal human and industrial intervention of the disposal of PET. We hope our project will be able to reduce the impact of PET as a pollutant on the environment.

Before you start:

Please read the following pages:

Styling your wiki

You may style this page as you like or you can simply leave the style as it is. You can easily keep the styling and edit the content of these default wiki pages with your project information and completely fulfill the requirement to document your project.

While you may not win Best Wiki with this styling, your team is still eligible for all other awards. This default wiki meets the requirements, it improves navigability and ease of use for visitors, and you should not feel it is necessary to style beyond what has been provided.

Wiki template information

We have created these wiki template pages to help you get started and to help you think about how your team will be evaluated. You can find a list of all the pages tied to awards here at the Pages for awards link. You must edit these pages to be evaluated for medals and awards, but ultimately the design, layout, style and all other elements of your team wiki is up to you!

Editing your wiki

On this page you can document your project, introduce your team members, document your progress and share your iGEM experience with the rest of the world!

Click here to edit this page!

Tips

This wiki will be your team’s first interaction with the rest of the world, so here are a few tips to help you get started:

  • State your accomplishments! Tell people what you have achieved from the start.
  • Be clear about what you are doing and how you plan to do this.
  • You have a global audience! Consider the different backgrounds that your users come from.
  • Make sure information is easy to find; nothing should be more than 3 clicks away.
  • Avoid using very small fonts and low contrast colors; information should be easy to read.
  • Start documenting your project as early as possible; don’t leave anything to the last minute before the Wiki Freeze. For a complete list of deadlines visit the iGEM 2016 calendar
  • Have lots of fun!
Inspiration

You can also view other team wikis for inspiration! Here are some examples:

Uploading pictures and files

You can upload your pictures and files to the iGEM 2016 server. Remember to keep all your pictures and files within your team's namespace or at least include your team's name in the file name.
When you upload, set the "Destination Filename" to Team:YourOfficialTeamName/NameOfFile.jpg. (If you don't do this, someone else might upload a different file with the same "Destination Filename", and your file would be erased!)

UPLOAD FILES