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Team:KAIST Korea/Home Intro
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Revision as of 03:24, 27 September 2012
2012 KAIST Korea
Mail : kaist.igem.2012@gmail.com
Twitter : twitter.com/KAIST_iGEM_2012
Facebook : www.facebook.com/KAISTiGEM2012
Home : Introduction
Introduction
"There have been attempts to reduce atmospheric level of carbon dioxide in various approaches." Since the Industrial Revolution, fossil fuels have been used to power industries and machines. As the world gets more industrialized in accordance with population growth, the demand for fossil fuels has grown more than ever. Due to drastic increase of fossil fuel consumption, massive amount of carbon dioxide (CO2) has been emitted into the atmosphere and the amount is still growing. As carbon dioxide (CO2) is considered to be a significant factor accelerating global warming, there have been numerous attempts to reduce the atmospheric level of carbon dioxide (CO2). Administrators have ratified protocols to regulate the emission of carbon dioxide (CO2). Scientists have endeavored to figure out ways to reduce this greenhouse gas despite several limitations. We, Team KAIST, Korea, suggest an idea of carbon dioxide (CO2) fixation with specially engineered bacterial strain which converts atmospheric carbon dioxide (CO2) into meaningful biomass as well as consuming it.
Project Overview
CO2 Fixation Pathway and Pathway Switching Module 1. CO2 Fixation Pathway Reductive acetyl-CoA pathway is a pathway for carbon dioxide (CO2) fixation in many anaerobes. Acetogenic bacteria, or acetogens, use this pathway to synthesize acetic acid from carbon dioxide. This pathway allows acetogens to grow autotrophically using hydrogen(H2) and carbon monooxide(CO) as electron donor and carbon dioxide (CO2) as electron acceptor.[1] Because the pathway is non-regenerative, reductive acetyl CoA pathway is a appropriate target pathway to consume atmospheric carbon dioxide (CO2). Nowadays, full genome sequences of bunch of acetogens are available. Also, the enzymes consisting the pathway are elucidated allowing us to reconstruct the pathway in Escherichia coli. [1] Environ Microbiol. 2008 October ; 10(10): 2550-2573. 2. Pathway Switching Module Throughout past iGEM competitions, many kinds of bio-modules were proposed and tested. In our project, we are suggesting dual-phase switching module using DNA recombination system that is new to iGEM part registry. With this module we will be able to control metabolic pathway we are targeting.- Module Suggestion and Proof of Concept
- Application of Module
Hand-made Video
