Team:TU-Eindhoven/LEC/Lab

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<h3>Yeast transformation</h3>
<h3>Yeast transformation</h3>
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[[File:Yeast_transformation.jpg|300px|link=]]
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<p>A weekly item on our schedule was yeast transformation. It takes about a week to complete a transformation, that is, to add one plasmid to an existing strain variant. Because success is not guaranteed we choose to introduce plasmids in various orders in parallel. This resulted in many variants that we assigned a unique number for convenience. The same number was used on plates, cultures and cryostocks. In total 49 variants were made.</p>
<p>A weekly item on our schedule was yeast transformation. It takes about a week to complete a transformation, that is, to add one plasmid to an existing strain variant. Because success is not guaranteed we choose to introduce plasmids in various orders in parallel. This resulted in many variants that we assigned a unique number for convenience. The same number was used on plates, cultures and cryostocks. In total 49 variants were made.</p>
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<p>To reach the aim of this project and prepare a multi-colored screen, three kind of cells, each with a different color, are needed. Therefore, one single plasmid strain would have to consist of both calcium channel parts MID1 and CCH1 sequences and one of the fluorescent GECO protein sequence. Each of these DNA sequences, coding for the three different parts, is transformed into a yeast plasmid (InvSC1). Moreover, each of these sequences contain a small sequence coding for an amino acid, causing the yeast strain to be able to synthesize this specific amino acid. The synthesis of this specific amino acid will allow strain selection by retaining this amino acid from the culture media. Cells containing the  coding CCH1, MID1 and GECO sequence are able to synthesize leucine, uracil and tryptophan respectively. </p>
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[[File:Yeast_transformation.jpg|300px|left|link=]]<p>To reach the aim of this project and prepare a multi-colored screen, three kind of cells, each with a different color, are needed. Therefore, one single plasmid strain would have to consist of both calcium channel parts MID1 and CCH1 sequences and one of the fluorescent GECO protein sequence. Each of these DNA sequences, coding for the three different parts, is transformed into a yeast plasmid (InvSC1). Moreover, each of these sequences contain a small sequence coding for an amino acid, causing the yeast strain to be able to synthesize this specific amino acid. The synthesis of this specific amino acid will allow strain selection by retaining this amino acid from the culture media. Cells containing the  coding CCH1, MID1 and GECO sequence are able to synthesize leucine, uracil and tryptophan respectively. </p>
<p>Looking at Scheme 1, which represents the transformations needed to come to the desired yeast strain, it seems and is logical to start with the MID1 or CCH1 vectors. By doing so, less transformations can be performed due to the transformation intensive introduction of the three different GECO proteins at last. To make sure that the transformations would lead to the desired strain, it was decided to start the first step with transforming all possibilities. When step one was transformed successfully, visualized by the arrows in Scheme 1, the transformation of step two was performed and so on.</p>
<p>Looking at Scheme 1, which represents the transformations needed to come to the desired yeast strain, it seems and is logical to start with the MID1 or CCH1 vectors. By doing so, less transformations can be performed due to the transformation intensive introduction of the three different GECO proteins at last. To make sure that the transformations would lead to the desired strain, it was decided to start the first step with transforming all possibilities. When step one was transformed successfully, visualized by the arrows in Scheme 1, the transformation of step two was performed and so on.</p>
[[File:Transformation chart.png|710px|link=]]
[[File:Transformation chart.png|710px|link=]]

Revision as of 01:29, 27 September 2012

References