Team:LCG-UNAM-Mexico/Description
From 2009.igem.org
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== '''Defense'''== | == '''Defense'''== | ||
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==='''Phage detection'''=== | ==='''Phage detection'''=== | ||
- | When phage T7 or T3 transduce their DNA into the host cell, the phage's polymerase will be able to bind the promoter of the system, which will activate two subsequent actions: production of toxins to inhibit further phage propagation, and a neighborhood alarm. The first thing translated is GFP | + | When phage T7 or T3 transduce their DNA into the host cell, the phage's polymerase will be able to bind the promoter of the system, which will activate two subsequent actions: production of toxins to inhibit further phage propagation, and a neighborhood alarm. The first thing translated is GFP. |
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+ | The part contents, in order of appearance, are as follows: | ||
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+ | ==='''Translation process Sabotage'''=== | ||
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+ | One of the elements transcribed by T7 RNA polymerase at early stages of T7 cycle in our transformed bacteria is the suicide system which consists of a polycistronic mRNA that codes among other proteins, the rRNAse domain of colicin E3, this toxin cleaves 16s rRNAs in active ribosomes from E. Coli, which causes inactivation of the ribosome and a subsequent decay in the overall bacterial translation, this response of our system affect T7 Cycle by reducing the number of bacteriophage proteins and then lowering the number of T7 phages at the end of the cycle. | ||
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+ | ==='''Alarm and Paranoia'''=== | ||
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+ | luxI is another product from the suicide system, infected cells produce it in order to warn surrounding cells of phages' presence through AHL. | ||
+ | When a neighboring cell has been reached by AHL it turns on an antisenseRNA against a T7 messenger to interrupt its life cycle if it becomes infected, this delay in the life cycle of T7 gives more time to colicins to act upon the translation machinery reducing active ribosomes to zero before the assembly of any T7 particle. | ||
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Revision as of 18:43, 20 October 2009