Team:Aachen/TestBench

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<h3>Welcome!<br> We are iGEM Team Aachen 2014 </h3>
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<p> If you want to find out more about Cellock Holmes, scroll down! </p>
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<h3>What is <it>Cellock Holmes</it> about?</h3>
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<h1>
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<p>Many young scientists dream about presenting their first big research project to a renowned professional audience. The prestigious iGEM competition provides us with an opportunity to make this dream come true. iGEM offers the ideal chance to expand our knowledge in different areas outside of our program, and to directly apply this knowledge to a current problem. Furthermore, we have the opportunity to learn modern research techniques, which go beyond the scope of our university studies. Working in an interdisciplinary team forces is to broaden our horizons, and we can learn from students studying different fields. Moreover, the competition will allow us to improve important soft skills such as the ability to work in a team, time and project management, and maintaining motivation throughout the project. We are looking forward to the international atmosphere of iGEM, and to meet like-minded student from all over the world. Lastly, it is the enthusiasm for fancy developments in synthetic biology that not only lead to new innovative products and a better life standard, but also to more sustainability.</p>
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Welcome to the Teamwiki of the iGEM Aachen in 2014!
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<p>Within the scope of our project, we want to develop a system with which pathogens on solid surfaces can be detected quickly and cost-effectively. This is essential in many respects, because presently there are no effective analytic methods for use in the health sector that can meet the increasing demands of affordability and speed. It is particularly important to detect microorganisms on solid surfaces in places where good hygiene is crucial, since—even after cleaning—microorganisms can still be present in dangerous amounts. This is demonstrated by the high number of 1.7 million infections per year in the US health sector, of which approximately 10,000 resulted in death (Klevens et al., 2002). A large number of these cases would be preventable, however, there is a present lack of adequate tools for practical application. We not only want to develop a detection system that alerts the patient to the presence of pathogens, but one that can also identify and quantify these microorganisms. Only in this way is it possible to reliably estimate the danger of infection.</p>
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<h2>Cellock Holmes - a case of identity </h2>
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Pathogens on solid surfaces in places where good hygiene is crucial pose a serious threat, since – even after cleaning – these can still be present in dangerous amounts. This is demonstrated by the high number of 3.2 million patients each year that have to be treated due to in the health sector acquired infections. And 37000 of those infections end deadly. The EU estimates that at least 20-30% of those cases would be preventable with an intensive hygiene program. However, for a more effective control these respective pathogens have to be identified.  
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We are developing a system that makes this possible. We are constructing a device with which pathogens can be detected easily, efficiently, effectively and less expensively by utilising genetically modified cells. We focus on a fast response time coupled with an automated analysis.
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Our project is not only applicable to the detection of pathogens but we are looking to develop it further into a platform for a general 2D detection of nearly any cell or substance. 
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<h3>What is <it>Cellock Holmes</it> about?</h3>
 
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<p>Many young scientists dream about presenting their first big research project to a renowned professional audience. The prestigious iGEM competition provides us with an opportunity to make this dream come true. iGEM offers the ideal chance to expand our knowledge in different areas outside of our program, and to directly apply this knowledge to a current problem. Furthermore, we have the opportunity to learn modern research techniques, which go beyond the scope of our university studies. Working in an interdisciplinary team forces is to broaden our horizons, and we can learn from students studying different fields. Moreover, the competition will allow us to improve important soft skills such as the ability to work in a team, time and project management, and maintaining motivation throughout the project. We are looking forward to the international atmosphere of iGEM, and to meet like-minded student from all over the world. Lastly, it is the enthusiasm for fancy developments in synthetic biology that not only lead to new innovative products and a better life standard, but also to more sustainability.</p>
 
-
<p>Within the scope of our project, we want to develop a system with which pathogens on solid surfaces can be detected quickly and cost-effectively. This is essential in many respects, because presently there are no effective analytic methods for use in the health sector that can meet the increasing demands of affordability and speed. It is particularly important to detect microorganisms on solid surfaces in places where good hygiene is crucial, since—even after cleaning—microorganisms can still be present in dangerous amounts. This is demonstrated by the high number of 1.7 million infections per year in the US health sector, of which approximately 10,000 resulted in death (Klevens et al., 2002). A large number of these cases would be preventable, however, there is a present lack of adequate tools for practical application. We not only want to develop a detection system that alerts the patient to the presence of pathogens, but one that can also identify and quantify these microorganisms. Only in this way is it possible to reliably estimate the danger of infection.</p>
 
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<h3> How does your project work?</h3>
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Our biological approach
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In order to detect the pathogens fast, specifically and inexpensively we are building sensor cells to detect these pathogens. These sensor cells can identify pathogens in very low concentration by responsing to specific extracellular molecules either secreted by or displayed on the pathogens. These molecules trigger a fast fluorescence response by our immobilized sensor cells  which will be measured by our device.
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</p>
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<p>
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You can follow our molecular approach in more detail by checking out our
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<a href="https://2014.igem.org/Team:Aachen/Labbook">Biological Part/Labbook</a>
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The device
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Our device Cellock Holmes is designed to be an automated 2D fluorescence analyser. We aim to be able to quickly measure the fluorescence emitted by our sensor cells and automatically analyze the emitted images with our software Measurarty. This will enabel us to reliably detect the amount of CFU (colony forming units) of the pathogens present on the sample. The device will have different Filters for different wavelenghts included to be able to analyze different fluorescent proteins at the same time.
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To learn more about our device check out
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<a href="https://2014.igem.org/Team:Aachen/CellockHolmes">Cellock Holmes</a>.
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The software Measurarty
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The third part of our project is our software Measurarty. The software will allow us to analyze the fluorescence emitted by our sensor cells in a more advanced and better way than just using a simple Treshold. We will utilize a modern segmentation algorithm in combination with further, detailed image processing algorythms.
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For more information check out our
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<a href="https://2014.igem.org/Team:Aachen/Errorlog">Computational Part</a>.
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Latest revision as of 13:51, 13 May 2014

Welcome to the Teamwiki of the iGEM Aachen in 2014!

Cellock Holmes - a case of identity

Pathogens on solid surfaces in places where good hygiene is crucial pose a serious threat, since – even after cleaning – these can still be present in dangerous amounts. This is demonstrated by the high number of 3.2 million patients each year that have to be treated due to in the health sector acquired infections. And 37000 of those infections end deadly. The EU estimates that at least 20-30% of those cases would be preventable with an intensive hygiene program. However, for a more effective control these respective pathogens have to be identified.

We are developing a system that makes this possible. We are constructing a device with which pathogens can be detected easily, efficiently, effectively and less expensively by utilising genetically modified cells. We focus on a fast response time coupled with an automated analysis.

Our project is not only applicable to the detection of pathogens but we are looking to develop it further into a platform for a general 2D detection of nearly any cell or substance.




Our biological approach

In order to detect the pathogens fast, specifically and inexpensively we are building sensor cells to detect these pathogens. These sensor cells can identify pathogens in very low concentration by responsing to specific extracellular molecules either secreted by or displayed on the pathogens. These molecules trigger a fast fluorescence response by our immobilized sensor cells which will be measured by our device.

You can follow our molecular approach in more detail by checking out our Biological Part/Labbook

The device

Our device Cellock Holmes is designed to be an automated 2D fluorescence analyser. We aim to be able to quickly measure the fluorescence emitted by our sensor cells and automatically analyze the emitted images with our software Measurarty. This will enabel us to reliably detect the amount of CFU (colony forming units) of the pathogens present on the sample. The device will have different Filters for different wavelenghts included to be able to analyze different fluorescent proteins at the same time.

To learn more about our device check out Cellock Holmes.

The software Measurarty

The third part of our project is our software Measurarty. The software will allow us to analyze the fluorescence emitted by our sensor cells in a more advanced and better way than just using a simple Treshold. We will utilize a modern segmentation algorithm in combination with further, detailed image processing algorythms.

For more information check out our Computational Part.