User:Behzad Damadzadeh/Notebook/PcTF Subcloning in E-coli

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|colspan="2" style="background-color: #F2F2F2;" align="right"|[[{{FULLPAGENAME}}/Entry_Base|Customize your entry pages]] [[Help:Notebook/Project_Base/Customize_entry_page|<html><img src="/images/a/aa/Help.png" border="0" /></html>]]
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==Project Description/Abstract==
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[[Image:engineering_pctfs.jpg|300px|thumb|right|]]
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* Synthetic biology is an exciting new field that aims to create novel biological functions by artificially combining natural molecular parts. Rational design allows us to engineer the behaviors of protein-based drugs, in ways that we cannot accomplish with small molecule-based drugs. DNA assembly will be used to build a combinatorial library of over 200 synthetic transcription factors (Pc-Tfs) that will potentially activate therapeutic genes in cancer and stem cells. As time allows, a select group of Pc-TF protein will be purified and analyzed biochemically.
==Notes==
==Notes==
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* Place some notes here for visitors
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* Brady Laughlin's Spring 2012 project in the Haynes Lab at Arizona State University
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* BME 394 Honors Research Project
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Revision as of 21:24, 2 April 2012

Search this Project

Customize your entry pages

Project Description/Abstract

  • Synthetic biology is an exciting new field that aims to create novel biological functions by artificially combining natural molecular parts. Rational design allows us to engineer the behaviors of protein-based drugs, in ways that we cannot accomplish with small molecule-based drugs. DNA assembly will be used to build a combinatorial library of over 200 synthetic transcription factors (Pc-Tfs) that will potentially activate therapeutic genes in cancer and stem cells. As time allows, a select group of Pc-TF protein will be purified and analyzed biochemically.

Notes

  • Brady Laughlin's Spring 2012 project in the Haynes Lab at Arizona State University
  • BME 394 Honors Research Project


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