Team:York/Project
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- | + | <p><b>Why we care about cadmium and sulfate in the environment:</b></p> | |
<p>Both cadmium and sulfate can be found in wastewater and is produced from processes such as electroplating. If these contaminants are not removed from the environment, they can have a detrimental impact upon living organisms. For example, if cadmium is consumed by mammals over a long period of time, it can cause health problems such as Itai-Itai disease (cadmium poisoning). This year, our project at iGEM York is focusing on increasing the uptake of cadmium and sulfate in our chosen chassis <i>E. coli</i>. The project has two main, interlinked approaches:</p><ul> | <p>Both cadmium and sulfate can be found in wastewater and is produced from processes such as electroplating. If these contaminants are not removed from the environment, they can have a detrimental impact upon living organisms. For example, if cadmium is consumed by mammals over a long period of time, it can cause health problems such as Itai-Itai disease (cadmium poisoning). This year, our project at iGEM York is focusing on increasing the uptake of cadmium and sulfate in our chosen chassis <i>E. coli</i>. The project has two main, interlinked approaches:</p><ul> | ||
<li><p>Firstly, the increased uptake of sulfur using an exogenous sulfate transporter from <i>Bacillus</i>.</p></li> | <li><p>Firstly, the increased uptake of sulfur using an exogenous sulfate transporter from <i>Bacillus</i>.</p></li> |
Revision as of 19:35, 17 October 2014
The project
Why we care about cadmium and sulfate in the environment:
Both cadmium and sulfate can be found in wastewater and is produced from processes such as electroplating. If these contaminants are not removed from the environment, they can have a detrimental impact upon living organisms. For example, if cadmium is consumed by mammals over a long period of time, it can cause health problems such as Itai-Itai disease (cadmium poisoning). This year, our project at iGEM York is focusing on increasing the uptake of cadmium and sulfate in our chosen chassis E. coli. The project has two main, interlinked approaches:
Firstly, the increased uptake of sulfur using an exogenous sulfate transporter from Bacillus.
Secondly the increased uptake and chelation of cadmium ions through the use of metal-binding proteins, to produce a potentially recoverable metal product.
The link between these two processes is the cysteine-rich phytochelatins. The phytochelatins we are over-expressing in our chassis are rich in cysteine and as a result, rich in sulfate. Thus our phytochelatins act as a sink for sulfate whilst chelating the cadmium that builds up inside the cell.
We have designed our system to be regulated by the concentration of cadmium in the environment. If the concentration of cadmium surpasses the sensitivity threshold of pYoda (cadmium-inducible promoter)then it will activate our system and as a result, our genes will be expressed. Our system prevents the overproduction of cysteine when cadmium is at low concentrations