Team:Purdue/Project/Background

From 2013.igem.org

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{{Team:Purdue/Content|title=Background ''everything we knew before we began''|content=
{{Team:Purdue/Content|title=Background ''everything we knew before we began''|content=
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The background page explains all of the prior knowledge about the problem, solution, or research that we did before we started the project. After reading the background page users should be able to generally understand everything else in the project section. The page will contain a lot of text, but also needs pictures to make the information clearer and more presentable.
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== Robustness Design ==
== Robustness Design ==
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When we place together a promoter with a new gene of interest we do not yet have these compatibility rules to know how a promoter will work with this gene of interest. We, as synthetic biologists, still don’t know that one promoter/gene will work the same way in one strain of E. coli as they will in another E. coli. For synthetic biology to truly emerge as a field that can capitalize in industry, we must find novel ways of engineering biological systems reliably using our own standard parts.
When we place together a promoter with a new gene of interest we do not yet have these compatibility rules to know how a promoter will work with this gene of interest. We, as synthetic biologists, still don’t know that one promoter/gene will work the same way in one strain of E. coli as they will in another E. coli. For synthetic biology to truly emerge as a field that can capitalize in industry, we must find novel ways of engineering biological systems reliably using our own standard parts.
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== Standardized Datasheets==
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Revision as of 22:27, 15 September 2013

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Background everything we knew before we began

== Robustness Design ==

One of the overwhelming problems that synthetic biologists face on a daily basis is the variability in genetic constructs. With our ever persistent drive to find a way to develop a standard set of parts for synthetic biology, it is often overlooked that these “standard” parts do not interact the same way that a nut and a bolt do. Sure the threads of each must match for compatibility, but you are guaranteed that a matching set of nuts and bolts will hold together a table just as well as they will hold together a chair, or a piece of metal machinery, or the engine of your car.

When we place together a promoter with a new gene of interest we do not yet have these compatibility rules to know how a promoter will work with this gene of interest. We, as synthetic biologists, still don’t know that one promoter/gene will work the same way in one strain of E. coli as they will in another E. coli. For synthetic biology to truly emerge as a field that can capitalize in industry, we must find novel ways of engineering biological systems reliably using our own standard parts.

== Standardized Datasheets==

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