Team:Carnegie Mellon
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Welcome to Carnegie Mellon University 2012 iGEM Team Wiki!
Contents |
Introduction: Motivation
- We seek to develop a BioBrick that will allow researchers in the field of synthetic biology to accurately measure a variety of metrics in gene expression networks including translational efficiency and transcriptional strength.
- We believe that we can use Spinach (a fluorescent RNA sequence) and a FAP (fluorogen activating protein) as biosensors 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), a FAP (downstream), translational efficiency, and transcriptional strength.
Abstract/Introduction
Motivation question
Humanistic implications go here
Primary Objective: A Useful BioBrick for Synthetic Biologists
We believe the development of this unprecedented BioBrick will help synthetic biologists in a variety of applications, for a variety of purposes such as the following:
- Quantifying translational efficiency in vivo
- Troubleshooting in expression strains
- mRNA and protein localization
- in vivo transcription rate analysis
- Determining promoter strength in vivo
- in vivo mRNA and protein half-lives
- Introducing a protein reporter that has virtually no maturation rate and is limited only by the very quick absorption rate of the fluorogen into the cell
- Introducing a functioning mRNA reporter
- Providing a method to better characterize current and future BioBricks
Our proposed BioBrick is novel, and potentially very useful in practice.
Secondary Objective: Humanistic Practice
FAQ/Terminology in engineering Escherichia coli to monitor these variables via fluorescence. Find out more about Carnegie Mellon: (CMU Home Page).
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 BioBrick,
- Programmed a new piece of software for modeling our BioBrick to students,
- Developed and tested techniques for measuring translational efficiency and transcriptional strength,
- Participated in human practices demonstration and modeled our biological system using a programmable and interactive, electrical analog.