Team:Gothenburg

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Introduction Our project intends to create a generation counter in Saccharomyces cerevisiae. The yeast cell would express fluorescent proteins of different colors according to the number of daughter cells spawn. Nowadays, the replicative age of a yeast cell is determined by counting the budding scars with the help of a microscope. This process is time-consuming and not automated. Once our idea is implemented, it would be possible to use a flow cytometric device to sort the cells according to their color and, consequently, generation number. To achieve that, we are building genetic circuits with a logical AND gate ensuring generation specific expression of different fluorescent proteins.

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-			<h3>Introduction</h3>
+			<h2>Introduction</h2>
-			<p>
+			<p>Our project intends to create a generation counter in Saccharomyces cerevisiae. The yeast cell would express fluorescent proteins of different colors according to the number of daughter cells spawn. Nowadays, the replicative age of a yeast cell is determined by counting the budding scars with the help of a microscope. This process is time-consuming and not automated. Once our idea is implemented, it would be possible to use a flow cytometric device to sort the cells according to their color and, consequently, generation number. To achieve that, we are building genetic circuits with a logical AND gate ensuring generation specific expression of different fluorescent proteins.
-			Nowadays the determination of replicative age of yeast cells is done by counting the budding scars of each cell in a microscope, a process time consuming and not effective. Our team goal within the iGEM competition is to construct a yeast generation counter. The idea is that each time the cell divides a different florescent protein [1, 2] is produced. Therefore by examining the cell under a microscope or in a flow cytometer one can determine how many times the cell has divided. This would be achieved by constructing a logical AND gate in the cell [3] where the input signals consist of a cyclin activated dCas9-VP64 and a guide RNA (gRNA) [4] signal from the previous cell cycle. The output response consist of a different fluorescent protein and a new gRNA molecule, see figure 1.
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 				<br>
-				<p>Figure 1. Schematic representation of the logical AND gate with the input
-				and output signals.
-				</p>
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-			<h3>Project Description</h3>
-			<p>
-			Nowadays the determination of replicative age of yeast cells is done by
-			counting the budding scars of each cell in a microscope, a process time consuming
-			and not effective. Our team goal with the iGEM project is to construct a yeast
-			generation counter. The idea is that each time the cell divides a different
-			florescent protein [1, 2] is produced. Therefore by examining the cell under a
-			microscope or in a flow cytometer one can determine how many times the cell has
-			divided. This would be achieved by constructing a logical AND gate in the cell [3]
-			where the input signals consist of a cyclin activated dCas9-VP64 and a guide RNA
-			(gRNA) [4] signal from the previous cell cycle. The output response consist of a
-			different fluorescent protein and a new gRNA molecule, see figure 1.
-			</p>
-			<p>
-			dCas9-VP64 is an engineered turntable transcription factor only active when dimerized
-			with an interchangeable gRNA molecule. The gRNA also determines the specificity of
-			the transcription factor which enables the dCas9-VP64 to activate different genes
-			depending on the sequence of the gRNA molecule and the promoter. gRNA consists of two
-			parts, a scaffold and a 20 bp Specificity Determinant Sequence (SDS) on the 5' end.
-			The scaffold constitutes the majority of the gRNA molecule and gives it its structure
-			whereas the SDS binds to the target site in the gene promoter.  Cyclins are proteins
-			that are involved in the progression of the cell cycle, therefore activated at specific
-			times [5]. To mimic the specific production pattern of cyclins the dCas9-VP64 gene is
-			placed under the control of a yeast cyclin promoter. Therefore the Cas9 will be
-			produced in the G1 phase. When the Cas9 and gRNA dimerize and the transcription factor
-			is activated, it in turn activates the transcription of a new fluorescent protein and
-			a new gRNA molecule to act as a memory for the next cycle. Once this age counter is
-			implemented, it would be possible to sort cells according to their replicative age
-			automatically with a flow cytometer device.
-			</p>
-			<h4>References</h4>
-			<ol id="references">
-				<li>Hackett, E.A., et al., A family of destabilized cyan fluorescent proteins as
-				transcriptional reporters in S. cerevisiae. Yeast, 2006. 23(5): p. 333-349.</li>
-				<li>Andersen, J.B., et al., New unstable variants of green fluorescent protein for
-				studies of transient gene expression in bacteria. Applied and environmental microbiology,
-. 64(6): p. 2240-2246.</li>
-				<li>Moon, T.S., et al., Genetic programs constructed from layered logic gates in single
-				cells. Nature, 2012. 491(7423): p. 249-253.</li>
-				<li>Farzadfard, F., S.D. Perli, and T.K. Lu, Tunable and multifunctional eukaryotic
-				transcription factors based on CRISPR/Cas. ACS synthetic biology, 2013. 2(10): p.
--613.</li>
-				<li>Nasmyth, K., At the heart of the budding yeast cell cycle. Trends in Genetics,
-. 12(10): p. 405-412</li>
-			</ol>
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