Difference between revisions of "Team:Newcastle/Applied Design"

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−	<h3>★  ALERT! </h3>	+	p {
−	<p>This page is used by the judges to evaluate your team for the <a href="https://2017.igem.org/Judging/Medals">medal criterion</a> or <a href="https://2017.igem.org/Judging/Awards"> award listed above</a>. </p>	+	padding: 100px;
−	<p> Delete this box in order to be evaluated for this medal criterion and/or award. See more information at <a href="https://2017.igem.org/Judging/Pages_for_Awards"> Instructions for Pages for awards</a>.</p>	+	}
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−	<h1>Applied Design</h1>	+
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−	<h3>Best Applied Design Special Prize</h3>	+
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−	<p>This is a prize for the team that has developed a synbio product to solve a real world problem in the most elegant way. The students will have considered how well the product addresses the problem versus other potential solutions, how the product integrates or disrupts other products and processes, and how its lifecycle can more broadly impact our lives and environments in positive and negative ways.	+
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−	To compete for the <a href="https://2017.igem.org/Judging/Awards">Best Applied Design prize</a>, please describe your work on this page and also fill out the description on the <a href="https://2017.igem.org/Judging/Judging_Form">judging form</a>.	+
−	<br><br>	+
−	You must also delete the message box on the top of this page to be eligible for this prize.	+
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−	<h5>Inspiration</h5>	+
−	<p>Take a look at what some teams accomplished for this prize.</p>	+
−	<ul>	+
−	<li><a href="https://2016.igem.org/Team:NCTU_Formosa/Design">2016 NCTU Formosa</a></li>	+
−	<li><a href="https://2016.igem.org/Team:HSiTAIWAN/Product?locationId=Design">2016 HSiTAIWAN</a></li>	+
−	<li><a href="https://2016.igem.org/Team:Pasteur_Paris/Design">2016 Pasteur Paris</a></li>	+
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		+	<h2>Applied Design</h2>
		+	<p>
		+	In designing the sensynova framework, we researched how biosensors are currently developed. We found that parts were rarely reused between designs, since biosensor components are typically tightly coupled in a single cell type. It was also found that a great deal of effort was required to optimise biosensors and tune their characteristics. We wanted to develop a more convenient, modular approach to facilitate reuse and ease the optimisation process. Therefore, we propose an alternative, multicellular system for biosensor development with off-the-shelf, modular components. Novel biosensors can be developed simply by mixing three different cell types; a detector, processor and reporter. The biosensor response characteristics can be tuned simply by mixing different ratios of the three cell types.
		+	To confirm that our design could successfully be applied to all biosensor systems, we undertook a systematic review of all biosensors previously made in iGEM to identify design patterns. We showed how other tightly coupled designs could be converted to our modular framework. We also designed and implemented a range detectors, processors and reporters for others to use.
		+	We hope our approach will lead to the more rapid, cost-effective and efficient development of a new kind of multicellular biosensor that will ultimately impact on human health, the environment and industrial processes to name but few.
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Applied Design

In designing the sensynova framework, we researched how biosensors are currently developed. We found that parts were rarely reused between designs, since biosensor components are typically tightly coupled in a single cell type. It was also found that a great deal of effort was required to optimise biosensors and tune their characteristics. We wanted to develop a more convenient, modular approach to facilitate reuse and ease the optimisation process. Therefore, we propose an alternative, multicellular system for biosensor development with off-the-shelf, modular components. Novel biosensors can be developed simply by mixing three different cell types; a detector, processor and reporter. The biosensor response characteristics can be tuned simply by mixing different ratios of the three cell types. To confirm that our design could successfully be applied to all biosensor systems, we undertook a systematic review of all biosensors previously made in iGEM to identify design patterns. We showed how other tightly coupled designs could be converted to our modular framework. We also designed and implemented a range detectors, processors and reporters for others to use. We hope our approach will lead to the more rapid, cost-effective and efficient development of a new kind of multicellular biosensor that will ultimately impact on human health, the environment and industrial processes to name but few.