Team:Carnegie Mellon
From 2012.igem.org
(Difference between revisions)
JSalazar88 (Talk | contribs) |
JSalazar88 (Talk | contribs) |
||
Line 499: | Line 499: | ||
<p style="border:1px solid #AAA;background:#FF0;padding:0;font-size:150%;line-height:2"> | <p style="border:1px solid #AAA;background:#FF0;padding:0;font-size:150%;line-height:2"> | ||
<span style="background:#FFF;color:#000;text-decoration:overline"><u><del>text</del> | <span style="background:#FFF;color:#000;text-decoration:overline"><u><del>text</del> | ||
- | '''top:''' [[File:Cmu2.jpeg| | + | '''top:''' [[File:Cmu2.jpeg|200px|top]] [[File:Example.jpg|40px|top]] [[File:Example.jpg|40px|border|top]] |
<del>text</del></u></span></p> | <del>text</del></u></span></p> |
Revision as of 19:30, 22 May 2012
Team:Carnegie_Mellon
From 2012.igem.org
Contents |
Introduction: Motivation
- We seek to develop a BioBrick that will allow researchers in the field of synthetic biology to accurately measure translational efficiency, and transcriptional strength.
- We believe that we can use Spinach as a biosensor to reflect these metrics in vivo, rather than in vitro, which has previously proven to be very costly and impractical.
- We will characterize the relationship between genetic expression of Spinach (upstream), translational efficiency, and transcriptional strength.
Place abstract/info here
Motivation question?
Humanistic implications go here
Primary Objective: A Useful BioBrick for Synthetic Biologists
We have been xxxxxyyyy for the purpose of xxxyyy which is detailed by the following:
- something great
- something greater
- something awesome
This will be xxxyyy
Secondary Objective: Secondary Objective
We have also been continuing the work of our 2012 team in engineering Escherichia coli to be awesome. Here is a link to awesomeness (WHO).
Further Considerations
In the pursuit of our project, as well as the biological aspects, we:
- considered aspects of scale-up, including the ethical, legal and social implications of our potential final product, MicroMaize,
- programmed a new piece of software for use in metabolic modelling,
- developed and tested a number of new techniques to make the process of creating BioBricksTM that little bit easier,
- collaborated with the University of Guelph team, sharing carotenoid synthesis genes, flux modulators, and gram positive plasmids.