Difference between revisions of "Team:NUS Singapore/Overview"

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<p>With the advancement in the field of synthetic biology, scientists have successfully engineered microbes to combat challenges in various fields such as medicine, energy, and environment. These genetically engineered microbes are however not commercialized due to the risk of bacteria escaping from the targeted host into the environment. To address this issue, we develop the NUSgem Kill-switch Toolkit that enables users to build customized and effective kill-switches for different applications. This toolkit consists of a library of characterized sensors, logic gates, and killing systems. </p>
 
<p>With the advancement in the field of synthetic biology, scientists have successfully engineered microbes to combat challenges in various fields such as medicine, energy, and environment. These genetically engineered microbes are however not commercialized due to the risk of bacteria escaping from the targeted host into the environment. To address this issue, we develop the NUSgem Kill-switch Toolkit that enables users to build customized and effective kill-switches for different applications. This toolkit consists of a library of characterized sensors, logic gates, and killing systems. </p>
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<p>With the advancement in the field of synthetic biology, scientists have successfully engineered microbes to combat challenges in various fields such as medicine, energy, and environment. These genetically engineered microbes are however not commercialized due to the risk of bacteria escaping from the targeted host into the environment. To address this issue, we develop the NUSgem Kill-switch Toolkit that enables users to build customized and effective kill-switches for different applications. This toolkit consists of a library of characterized sensors, logic gates, and killing systems. </p>
 
<p>With the advancement in the field of synthetic biology, scientists have successfully engineered microbes to combat challenges in various fields such as medicine, energy, and environment. These genetically engineered microbes are however not commercialized due to the risk of bacteria escaping from the targeted host into the environment. To address this issue, we develop the NUSgem Kill-switch Toolkit that enables users to build customized and effective kill-switches for different applications. This toolkit consists of a library of characterized sensors, logic gates, and killing systems. </p>
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Revision as of 03:22, 29 October 2017

Measurement Modelling Medal Check List
Team Member Attributions
Collaboration
Silver Up Gold Integrated
Overview Methodology Kill Switch for Probiotics Kill Switch for BeeT
Description Interlab Study Parts Experiment Documentation Improvement Demonstrate Safety Future Works
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Overview

With the advancement in the field of synthetic biology, scientists have successfully engineered microbes to combat challenges in various fields such as medicine, energy, and environment. These genetically engineered microbes are however not commercialized due to the risk of bacteria escaping from the targeted host into the environment. To address this issue, we develop the NUSgem Kill-switch Toolkit that enables users to build customized and effective kill-switches for different applications. This toolkit consists of a library of characterized sensors, logic gates, and killing systems.

With the advancement in the field of synthetic biology, scientists have successfully engineered microbes to combat challenges in various fields such as medicine, energy, and environment. These genetically engineered microbes are however not commercialized due to the risk of bacteria escaping from the targeted host into the environment. To address this issue, we develop the NUSgem Kill-switch Toolkit that enables users to build customized and effective kill-switches for different applications. This toolkit consists of a library of characterized sensors, logic gates, and killing systems.

With the advancement in the field of synthetic biology, scientists have successfully engineered microbes to combat challenges in various fields such as medicine, energy, and environment. These genetically engineered microbes are however not commercialized due to the risk of bacteria escaping from the targeted host into the environment. To address this issue, we develop the NUSgem Kill-switch Toolkit that enables users to build customized and effective kill-switches for different applications. This toolkit consists of a library of characterized sensors, logic gates, and killing systems.