Team:TUDelft/Conclusions

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(Difference between revisions)
(Time-Delay Device)
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'''''Synthetic Transcriptional Cascade'''''
'''''Synthetic Transcriptional Cascade'''''
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A functional time-delay device was designed, constructed and delivery to iGEM registry. This device is based on transcriptional regulation and has the capability to integrate an input signal, IPTG, and trigger the expression of GFP after a delay from the initial detection event. The device is formed by two new functional biobricks, this division not only allows the transfer of the helper plasmid in TUDelft 09 's project but also allows other teams to construct larger or shorter cascades which will deliver, after proper design, longer or shorter time-delay behaviors.
A functional time-delay device was designed, constructed and delivery to iGEM registry. This device is based on transcriptional regulation and has the capability to integrate an input signal, IPTG, and trigger the expression of GFP after a delay from the initial detection event. The device is formed by two new functional biobricks, this division not only allows the transfer of the helper plasmid in TUDelft 09 's project but also allows other teams to construct larger or shorter cascades which will deliver, after proper design, longer or shorter time-delay behaviors.
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'''''Biosynthetic AND gate'''''
'''''Biosynthetic AND gate'''''
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It was expected that post-transcriptional regulation, generated synthetically by the lock of the RBS and the following induction of the key for that lock or as mentioned by Isaac, riboregulator, will create a time-delay device. A plan for this strategy was elaborated in this sub-project and several attempts to construct it were performed. However, none of them were successful and this strategy was left behind in order to complete remain work.
It was expected that post-transcriptional regulation, generated synthetically by the lock of the RBS and the following induction of the key for that lock or as mentioned by Isaac, riboregulator, will create a time-delay device. A plan for this strategy was elaborated in this sub-project and several attempts to construct it were performed. However, none of them were successful and this strategy was left behind in order to complete remain work.
'''''Lock and Key Library'''''
'''''Lock and Key Library'''''
 +
Based on the work of… and impulse by the lack of riboregulators, or widely named as locks and keys in iGEM members, we present the design and construction of an algorithm of an online lock and key generator. This work provides a tool for future iGEM teams which wanted to use post-transcriptional as a regulatory system and, because design needs, the use of RBS’s with different strengths are required. Although several teams have designed different riboregulators, they always focused on the “normal” RBS from the registry; this does not take advantage of the large library of RBS present in the site. Moreover, various teams make use of this post-transcriptional tool (see…) in this year projects, indicating a need for improvements and expansions of this tools.
Based on the work of… and impulse by the lack of riboregulators, or widely named as locks and keys in iGEM members, we present the design and construction of an algorithm of an online lock and key generator. This work provides a tool for future iGEM teams which wanted to use post-transcriptional as a regulatory system and, because design needs, the use of RBS’s with different strengths are required. Although several teams have designed different riboregulators, they always focused on the “normal” RBS from the registry; this does not take advantage of the large library of RBS present in the site. Moreover, various teams make use of this post-transcriptional tool (see…) in this year projects, indicating a need for improvements and expansions of this tools.

Revision as of 19:37, 20 October 2009

Time-Delay Device

Synthetic Transcriptional Cascade

A functional time-delay device was designed, constructed and delivery to iGEM registry. This device is based on transcriptional regulation and has the capability to integrate an input signal, IPTG, and trigger the expression of GFP after a delay from the initial detection event. The device is formed by two new functional biobricks, this division not only allows the transfer of the helper plasmid in TUDelft 09 's project but also allows other teams to construct larger or shorter cascades which will deliver, after proper design, longer or shorter time-delay behaviors.

The plasmids constructed in this work were proved to work individually as expected and once they are transformed together within the same cell, they perform as a delay device. In the experiments performed in this project, the expression of GFP was substantially incremented after XXX min after induction with 0.2 mM IPTG.

The lack of enough amounts of LacI (see XXX) did not allow performing a better characterization of the device due to a lack of a control. However, in relative measurements, the device was proved to work.

Biosynthetic AND gate

It was expected that post-transcriptional regulation, generated synthetically by the lock of the RBS and the following induction of the key for that lock or as mentioned by Isaac, riboregulator, will create a time-delay device. A plan for this strategy was elaborated in this sub-project and several attempts to construct it were performed. However, none of them were successful and this strategy was left behind in order to complete remain work.

Lock and Key Library

Based on the work of… and impulse by the lack of riboregulators, or widely named as locks and keys in iGEM members, we present the design and construction of an algorithm of an online lock and key generator. This work provides a tool for future iGEM teams which wanted to use post-transcriptional as a regulatory system and, because design needs, the use of RBS’s with different strengths are required. Although several teams have designed different riboregulators, they always focused on the “normal” RBS from the registry; this does not take advantage of the large library of RBS present in the site. Moreover, various teams make use of this post-transcriptional tool (see…) in this year projects, indicating a need for improvements and expansions of this tools.

The predicted secondary structure of the RNA derived from the DNA generated by the online generator, shows that the locks sequester the RBS chosen by the user, impeding the expression of the protein downstream the RBS. The online tool also generates a matching key which interaction with the lock will release the RBS, allowing expression of the protein of interest.

In order to test the functionality of the riboregulators generated by the online tool, two pairs of lock and key were chosen to be constructed and tested. The locks and the respectively keys for “weak” and “medium” RBS from the registry were successfully constructed. These riboregulators were used to construct two plasmids which could help for the characterization of the locks and keys. Besides the mentioned plasmids, two controls were designed and constructed. Both, controls and plasmids, were constructed to be functional after IPTG induction. However, the lack of LacI repressor in the cells used forbids us to completely characterize the riboregulators. Future work should be done in order to characterize this new biobricks and other generated by the online tool created in this work and increase the tools for control of gene expression.