Team:KULeuven/Death

From 2011.igem.org

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<br><h2>1. Describing the celldeath system</h2>
<br><h2>1. Describing the celldeath system</h2>
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tekst simulation
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Description of the cell death system
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For a full description, we refer to the extended project page. This section shows only a brief summary of the cell death description.
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The cell death mechanism we use, will be induced when stimulus 1 (L-arabinose) or stimulus 2 (lactose) and at the same time a cold temperature is applied.
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Procedure: We grow the bacteria at the optimal temperature of 37 degrees. Then we produce the protein we wish by applying the correct stimulus, e.g., L-arabinose to produce AFP. After synthesizing the desired amount of protein, we lower the temperature to induce the cell death mechanism.
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<br><p>CELL DEATH SCHEME
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<br><p>BIOBRICKS CELL DEATH
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The promoters for production of the ribolock Colicin E2 operon (Bba_K131009) are two hybrid promoters: pLac-LuxR promoter and pLux-CI promoter. We describe  the promoter kinetics in this subsystem with simplified mass equations. This is a simplification because hill kinetics will approach better the transcription in vivo than mass equations. In the full model, hill kinetics is applied.
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<br><p>FIGURE 1: pLac-luxR hybrid promotor
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<br><p>FIGURE 2: plux-cI promotor
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<br><p>CelldeathODE.pdf
<br><p>PARAMETER TABLE
<br><p>PARAMETER TABLE
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<br><h2>2. CellDeath Model </h2>
<br><h2>2. CellDeath Model </h2>

Revision as of 10:14, 15 September 2011

KULeuven iGEM 2011

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overview     Freeze     Antifreeze     Cell Death

Modeling Celldeath


1. Describing the celldeath system

Description of the cell death system For a full description, we refer to the extended project page. This section shows only a brief summary of the cell death description. The cell death mechanism we use, will be induced when stimulus 1 (L-arabinose) or stimulus 2 (lactose) and at the same time a cold temperature is applied. Procedure: We grow the bacteria at the optimal temperature of 37 degrees. Then we produce the protein we wish by applying the correct stimulus, e.g., L-arabinose to produce AFP. After synthesizing the desired amount of protein, we lower the temperature to induce the cell death mechanism.

CELL DEATH SCHEME

BIOBRICKS CELL DEATH The promoters for production of the ribolock Colicin E2 operon (Bba_K131009) are two hybrid promoters: pLac-LuxR promoter and pLux-CI promoter. We describe the promoter kinetics in this subsystem with simplified mass equations. This is a simplification because hill kinetics will approach better the transcription in vivo than mass equations. In the full model, hill kinetics is applied.

FIGURE 1: pLac-luxR hybrid promotor

FIGURE 2: plux-cI promotor


CelldeathODE.pdf

PARAMETER TABLE


2. CellDeath Model

CELL DEATH MODEL

3. Simulations

tekst simulation


4. Sensitivity analysis

tekst sensitivity