Difference between revisions of "Team:SHSBNU China/Safety"

 
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<p style="font-family: Serif;font-size: 3.5vw; font-weight: bold;text-align: center;margin: 0.5vw 0vw 0vw 0vw">Sample</p>
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<h6 id="menu_intro">Safety</h6>
 
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<a class="snd_class" href="https://2018.igem.org/Team:SHSBNU_China/Safety#Overview">Overview</a>
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<a class="snd_class" href="https://2018.igem.org/Team:SHSBNU_China/Safety#SPD">Safe Project Design</a>
 
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<a class="trd_class" href="https://2018.igem.org/Team:SHSBNU_China/Safety#SLW">Safe Lab Work</a>
 
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<a class="snd_class" href="">SHSBNU_China</a>
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<a class="snd_class" href="https://2018.igem.org/Team:SHSBNU_China/Safety#SS">Safe Shipment</a>
 
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<h1>Sample</h1>
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<h1>Safety</h1>
 
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<div id="sec_content">
<h2>I. Sample</h2>
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<h2 id="Overview">I. Overview</h2>
<h3>a. Sample</h3>
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This year’s SHSBNU_China Team is trying to develop a highly efficient, low-cost and modularized biomaterial to decompose azo dye, the Biofilm x Laccase system, using the methods of synthetic biology. Here we wish to share our experiences with safety control.
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This year's SHSBNU_China Team is trying to develop a highly efficient, low-cost and modularized biomaterial to decompose synthetic dye, the Biofilm x Laccase system, using the methods of synthetic biology. Here we wish to share our experiences of safety control.
</p>
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</p>
</section><section>
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</div>
<p class="text">
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According to the requirements of iGEM policy, we performed safely in every experiment followed by some basic regulations as follows:<br/>
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<li>Thorough experiment and regulations should be understood by participants. </li>
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<li>Steps with any probability of contamination should be performed in a biosafety cabinet. </li>
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<li>Duplicating a key to the laboratory without permission is strictly prohibited. </li>
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<li>Wear rubber gloves during all experimenters. </li>
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<li>Sanitize the lab using UV-light every day. </li>
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<li>Fire, electric heaters, and microwave ovens should remain attended while operating. </li>
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<li>All liquid and solid waste containing living organisms must be daily autoclaved. </li>
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<li>The last person to leave the lab should make sure that water, electricity, gas, and air conditioners have been turned off, and doors and windows have been locked before leaving. </li>
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Biofilm base CotA operator, produced in this project, was secreted by genetically modified strains of host bacteria E. coli. As we developed a water-filter which prevents bacteria from leakage, the recombinant DNA will not flow out into the environment. Even if a small fraction of CotA-producing bacteria leaked out, it would not express any protein because of the shortage of IPTG. In addition, our filter structure contains sterilizing device which can keep biofilm from leakage. Thus, there is no doubt that our product is safe and reliable.
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</section><section>
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The DNA parts are absolutely safe because they encode non-hazardous proteins such as SpyCatcher, SpyTag, biofilm, CotA and their combinations to human. The DNA parts were safely confined within PCR tubes as the Parts Registry requires.
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</p>
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</section>
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<h2>II. Safe Project Design</h2>
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We considered safety in every part of our project. For example, CotA Laccase, biofilm and the combination of them in a sewage filter. In this filter, PHA plastic, bacteria containing CsgA plasmid or CotA plasmid, laccase, and plasmids from both bacteria should all be considered a potential danger. To prevent the possible escape of these ingredients, improvements on the designing of the filter were adopted.<br/></p>
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<p class="text">
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First, semi-closed container design would form an effective barrier for biofilm coated PHA plastic beads. PHA plastic beads could be replaced and disposed after expiration. It would also be considered as an advantage that PHA plastic, a biodegradable material, is non-toxic and can be decomposed easily. <br/>
 
</p>
 
</p>
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<p class="text">
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Second, we planned to add a secondary oxidation step, by treating the sewage effluent by sodium hypochlorite. This step will remove any bacteria or biomolecule such as plasmid and laccase if they got escaped from the filter. The oxidation step has already been proven to be effective by years of use in Hanghua sewage plant.
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</p>
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</div>
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<h3 id="SLW">Safe Lab Work</h3>
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<div class="content">
 
<div style="float:" class="content_pic_right">
 
<div style="float:" class="content_pic_right">
<img class="pictures" id = "" src=""/>
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<img class="pictures" id = "61001" src="https://static.igem.org/mediawiki/2018/b/bf/T--SHSBNU_China--61001.jpeg"/>
<p class="pic_text">This is a Picture. This is a Picture. This is a Picture. This is a Picture.</p>
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<p class="pic_text">
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"Haocong Li is doing experimental operation following rules"
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</p>
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<img class="pictures" id = "61000" src="https://static.igem.org/mediawiki/2018/2/24/T--SHSBNU_China--61000.jpeg"/>
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<p class="pic_text">
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"Fangning Luo is doing experimental operation following rules"
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</p>
 
</div>
 
</div>
 
<p class="text">
 
<p class="text">
This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture. This is a Picture.
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According to the requirements of iGEM policy, we performed safely in every experiment followed by some basic regulations as follows:
 +
</p>
 +
<ul class="content_list">
 +
<li style="margin-left:0.5vw" class="content_list">Thorough experiment and regulations should be understood by participants.
 +
</li>
 +
<li style="margin-left:0.5vw" class="content_list">Experiment steps with any probability of contamination should be performed in a biosafety cabinet.
 +
</li>
 +
<li style="margin-left:0.5vw" class="content_list">Duplicating a key to the laboratory without permission is strictly prohibited.
 +
</li>
 +
<li style="margin-left:0.5vw" class="content_list">Wear rubber gloves during all experimenters.
 +
</li>
 +
<li style="margin-left:0.5vw" class="content_list">Sanitize the lab using UV-light every day.
 +
</li>
 +
<li style="margin-left:0.5vw" class="content_list">Fire, electric heaters, and microwave ovens should always be monitored by a teacher while operating.
 +
</li>
 +
<li style="margin-left:0.5vw" class="content_list">All liquid and solid waste containing living organisms must be autoclaved before dumping.
 +
</li>
 +
<li style="margin-left:0.5vw" class="content_list">The last person to leave the lab should make sure that water, electricity, gas, and air conditioners have been turned off, and doors and windows have been locked before.
 +
</li>
 +
</ul>
 +
</div>
 +
 
 +
<h2 id="SS">III. Parts' Safety </h2>
 +
<div class="content">
 +
<p class="text">
 +
We believe that the DNA parts are safe to human and eco-system because they encode non-hazardous proteins such as SpyCatcher, SpyTag, biofilm, CotA laccase. The DNA parts were safely confined within PCR tubes according to the Parts Registry requirements.
 
</p>
 
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<p style="font-size:1vw;font-family:'Times New Roman';font-style:italic;color:#666666">SHSBNU_China 2018, Created by AzirQuantum</p>
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<p style="font-size:1vw;font-family:'Times New Roman';font-style:italic;color:#666666">SHSBNU_China 2018, Created by Azir</p>
 
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</div>

Latest revision as of 00:58, 18 October 2018

Section Sample

Safety

I. Overview

This year's SHSBNU_China Team is trying to develop a highly efficient, low-cost and modularized biomaterial to decompose synthetic dye, the Biofilm x Laccase system, using the methods of synthetic biology. Here we wish to share our experiences of safety control.

II. Safe Project Design

We considered safety in every part of our project. For example, CotA Laccase, biofilm and the combination of them in a sewage filter. In this filter, PHA plastic, bacteria containing CsgA plasmid or CotA plasmid, laccase, and plasmids from both bacteria should all be considered a potential danger. To prevent the possible escape of these ingredients, improvements on the designing of the filter were adopted.

First, semi-closed container design would form an effective barrier for biofilm coated PHA plastic beads. PHA plastic beads could be replaced and disposed after expiration. It would also be considered as an advantage that PHA plastic, a biodegradable material, is non-toxic and can be decomposed easily.

Second, we planned to add a secondary oxidation step, by treating the sewage effluent by sodium hypochlorite. This step will remove any bacteria or biomolecule such as plasmid and laccase if they got escaped from the filter. The oxidation step has already been proven to be effective by years of use in Hanghua sewage plant.

Safe Lab Work

"Haocong Li is doing experimental operation following rules"

"Fangning Luo is doing experimental operation following rules"

According to the requirements of iGEM policy, we performed safely in every experiment followed by some basic regulations as follows:

  • Thorough experiment and regulations should be understood by participants.
  • Experiment steps with any probability of contamination should be performed in a biosafety cabinet.
  • Duplicating a key to the laboratory without permission is strictly prohibited.
  • Wear rubber gloves during all experimenters.
  • Sanitize the lab using UV-light every day.
  • Fire, electric heaters, and microwave ovens should always be monitored by a teacher while operating.
  • All liquid and solid waste containing living organisms must be autoclaved before dumping.
  • The last person to leave the lab should make sure that water, electricity, gas, and air conditioners have been turned off, and doors and windows have been locked before.

III. Parts' Safety

We believe that the DNA parts are safe to human and eco-system because they encode non-hazardous proteins such as SpyCatcher, SpyTag, biofilm, CotA laccase. The DNA parts were safely confined within PCR tubes according to the Parts Registry requirements.