Team:UIUC-Illinois/HumanPract

From 2011.igem.org

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       <div class="title"><center>About the Team</center></div>
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       <div class="title"><center>Human Practices Project</center></div>
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         <div class="title">Illiniois iGEM</div>
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         <div class="title">Complete Report</div>
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         <div class="desc"><img src="https://static.igem.org/mediawiki/2011/5/52/Illinois_igem_team_s.jpg" alt="Illinois iGEM Team" /></div>
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         <div class="desc">To download the complete report with data and figures, please click the link below.</div>
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         <div class="desc">Our team is comprised of students from diverse academic backgrounds including Molecular and Cellular Biology, Biochemistry, Agricultural Engineering, Biological Engineering, Computer Engineering, and Electrical Engineering. While our scholastic backgrounds may vary slightly, we share the same zeal for furthering the field of synthetic biology!</div>
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        <div class="desc"><a href="https://static.igem.org/mediawiki/2011/d/dd/Final_humanpractice.pdf">Download</a></div>
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        <div class="title">Abstract</div>
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         <div class="desc">Our human practice project has three components: Survey results regarding error-proneness in constructing synthetic gene circuits, a Synthetic Biology College Course proposal, and Synthetic Biology for Educators.</div>
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        <div class="desc">The college course was recently developed, and surveys are still being taken by students attending the University of Illinois in Urbana-Champaign. The initial survey results have been shown in the final report.</div>
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        <div class="title">Surveying perceived error-proneness in constructing synthetic gene circuits</div>
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        <div class="desc">To understand the cause of human errors in Synthetic Biology, we made a short survey outlining the techniques that people commonly use to create synthetic gene circuits. We collected the opinions from research fellows in biology labs on which techniques they find are particularly error prone and which ones are relatively error free. Their responses are helpful in understanding issues related to consistency in implementing synthetic gene networks. One example of how we may use results from this survey is to identify processes that would significantly benefit from automation.</div>
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        <div class="title">Synthetic Biology College Course Proposal</div>
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        <div class="desc">In collaboration with Professor Ting Lu from Bioengineering department in University of Illinois, we designed a synthetic biology class for college students. This proposal will be further developed and the proposed class will come to reality in the 2012 Fall semester. We did a quick survey on how the students think about the course basing on the current course outline. We got positive feedbacks from the students who took the survey. </div>
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        <div class="title">Synthetic Biology for Educators</div>
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        <div class="desc">Synthetic Biology for Educators is a practical course designed to help educators engage their students in the basics of Synthetic Biology. Our target audience is current or future science teachers of grades 6-12. The course is designed to solve two problems in general biology class:</div>
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          <div class="desc">1. Teachers want to present cutting edge science such as synthetic biology to their students in the classroom, but there are currently few simple lesson plans and kits available.</div>
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          <div class="desc">2. Teachers are inexperienced with the concepts and materials in Synthetic Biology</div>
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        </div>
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        <div class="desc">We provided two solutions to the correlated problems:</div>
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        <div class="indent">
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          <div class="desc">1. iGEM students create kits and protocols with background information.</div>
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          <div class="desc">2. iGEMers available via Skype to provide remote support to interact with students and educators.</div>
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        </div>
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        <div class="desc">We envision collaboration with Champaign STEM (Science, Technology, Engineering, and Mathematics) elementary school, the only STEM based elementary school in U.S, implementing our course design. We also would like to affiliate with organizations that provide STEM support to educators locally and promote synthetic biology. </div>
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Latest revision as of 04:21, 29 September 2011

University of Illinois iGEM Team
Human Practices Project
Human Practices Navigation
Overview
Safety

Who We Are
Amanda Chang
"A watched gel never runs"
Complete Report
To download the complete report with data and figures, please click the link below.
Download
Abstract
Our human practice project has three components: Survey results regarding error-proneness in constructing synthetic gene circuits, a Synthetic Biology College Course proposal, and Synthetic Biology for Educators.
The college course was recently developed, and surveys are still being taken by students attending the University of Illinois in Urbana-Champaign. The initial survey results have been shown in the final report.
Surveying perceived error-proneness in constructing synthetic gene circuits
To understand the cause of human errors in Synthetic Biology, we made a short survey outlining the techniques that people commonly use to create synthetic gene circuits. We collected the opinions from research fellows in biology labs on which techniques they find are particularly error prone and which ones are relatively error free. Their responses are helpful in understanding issues related to consistency in implementing synthetic gene networks. One example of how we may use results from this survey is to identify processes that would significantly benefit from automation.
Synthetic Biology College Course Proposal
In collaboration with Professor Ting Lu from Bioengineering department in University of Illinois, we designed a synthetic biology class for college students. This proposal will be further developed and the proposed class will come to reality in the 2012 Fall semester. We did a quick survey on how the students think about the course basing on the current course outline. We got positive feedbacks from the students who took the survey.
Synthetic Biology for Educators
Synthetic Biology for Educators is a practical course designed to help educators engage their students in the basics of Synthetic Biology. Our target audience is current or future science teachers of grades 6-12. The course is designed to solve two problems in general biology class:
1. Teachers want to present cutting edge science such as synthetic biology to their students in the classroom, but there are currently few simple lesson plans and kits available.
2. Teachers are inexperienced with the concepts and materials in Synthetic Biology
We provided two solutions to the correlated problems:
1. iGEM students create kits and protocols with background information.
2. iGEMers available via Skype to provide remote support to interact with students and educators.
We envision collaboration with Champaign STEM (Science, Technology, Engineering, and Mathematics) elementary school, the only STEM based elementary school in U.S, implementing our course design. We also would like to affiliate with organizations that provide STEM support to educators locally and promote synthetic biology.

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