Difference between revisions of "Team:Marburg"

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<h2>Vibrigens - Accelerating Synbio:<br>Establishing <i>Vibrio natriegens</i> as the new chassis organism for synthetic biology</h2>
 
<h2>Vibrigens - Accelerating Synbio:<br>Establishing <i>Vibrio natriegens</i> as the new chassis organism for synthetic biology</h2>
 
Waiting for cells to grow is an enormous time sink for synthetic biologists. Cloning cycles with
 
Waiting for cells to grow is an enormous time sink for synthetic biologists. Cloning cycles with
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established the first synthetic metabolic pathway in this organism by producing the platform
 
established the first synthetic metabolic pathway in this organism by producing the platform
 
chemical 3-Hydroxypropionate and along the way developed an accelerated workflow for
 
chemical 3-Hydroxypropionate and along the way developed an accelerated workflow for
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Revision as of 00:44, 7 October 2018

Vibrigens - Accelerating Synbio:
Establishing Vibrio natriegens as the new chassis organism for synthetic biology

Waiting for cells to grow is an enormous time sink for synthetic biologists. Cloning cycles with the current standard, Escherichia coli, typically take up to three days. In our project Vibrigens - Accelerating Synbio, we established the tools to turn Vibrio natriegens into the next generation chassis for synthetic biology, ready to be used reliably. By taking advantage of its unbeaten doubling time of 7 minutes, we substantially reduced waiting time and made oneday-cloning a reality. We built and characterized a flexible golden-gate-based part collection, consisting of more than 100 parts, which enables the creation of complex pathways in a short amount of time. Our engineered V. natriegens strains VibriClone and VibriExpress are designed for cloning and protein expression applications, respectively. Moreover, we established the first synthetic metabolic pathway in this organism by producing the platform chemical 3-Hydroxypropionate and along the way developed an accelerated workflow for metabolic engineering.
B. Marchal