Team:TU-Eindhoven/Future applications/Developments

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<h3>Lab</h3>
<h3>Lab</h3>
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<p>The more research that is conducted with yeast, the more informed and controlled future research can be. Yeast is incredibly flexible, it is safe and yeast also shares many genes with human cells. So if you want to find out what a particular drug does to a certain human gene, you can often test it on yeast cells first.</p>
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<p>The more research is conducted with yeast, the more informed and controlled future research can be. Yeast is incredibly flexible, it is safe and yeast also shares many genes with human cells. So if you want to find out what a particular drug does to a certain human gene, you can often test it on yeast cells first.</p>
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<p>A good way to characterize the whole yeast cell is still missing. This would be useful to validate the computational models and to ‘debug’ the yeast. However, this is a lot of work, because every part of the characterization is already a project in itself.
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<p>A good way to characterize the whole yeast cell is still missing. This would be useful to validate the computational models and to 'debug' the yeast. However, this is a lot of work, because every part of the characterization is already a project in itself.
For instance:</p>
For instance:</p>
<ul>
<ul>
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<li>Measuring and <span class="pink">controlling the localization</span> of the channels. This can be done with fluorescence microscopy, because there are fusion proteins available from CCH1 and Mid1 with EGFP-tag<html><a href="#ref_Iida"name="text_Iida"><sup>[1]</sup></a></html>. It is also possible to influence the localization within the cell, this is currently a major area of research in cellular biology.</li>
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<li>Measuring and <span class="pink">controlling the localization</span> of the channels. This can be done with fluorescence microscopy, because there are fusion proteins available from CCH1 and MID1 with EGFP-tag<html><a href="#ref_Iida"name="text_Iida"><sup>[1]</sup></a></html>. It is also possible to influence the localization within the cell, this is currently a major area of research in cellular biology.</li>
<li>The measurement of the <span class="pink">dynamic response</span> of the yeast on the calcium influx. This can be done with fluorescence-lifetime imaging microscopy, to measure calcium concentrations in living cells at multiple scales using lifetime contrast. However, only if you are in possession of such an expensive device and if you are able to work with it.</li>
<li>The measurement of the <span class="pink">dynamic response</span> of the yeast on the calcium influx. This can be done with fluorescence-lifetime imaging microscopy, to measure calcium concentrations in living cells at multiple scales using lifetime contrast. However, only if you are in possession of such an expensive device and if you are able to work with it.</li>

Latest revision as of 00:57, 27 September 2012