Team:LCG-UNAM-Mexico/Description
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Bacteria play a fundamental role in human life and they are still the preferred models to study the molecular dynamics of organisms. One example are probiotics because of their vital importance in industry and food manufacturing. Infection by phages represents a relevant and expensive problem in these areas. For this reason we decided to construct a system to contend with bacteriophage infection at a population level. | Bacteria play a fundamental role in human life and they are still the preferred models to study the molecular dynamics of organisms. One example are probiotics because of their vital importance in industry and food manufacturing. Infection by phages represents a relevant and expensive problem in these areas. For this reason we decided to construct a system to contend with bacteriophage infection at a population level. | ||
- | Given this global protection vision emerges the idea of dividing our project in two subsystems: ''''[[Team:LCG-UNAM-Mexico/Description#Delivery| delivery]]'''' and '''[[Team:LCG-UNAM-Mexico/Description#Defense| defense]]'''. Their coupled expression leads to a cascade dependent on the presence of an infectious phage. This property gives an extra versatility to the project because the defense subsystem turns on faster enough to hold back the infection and then lasts enough to give "immunity" to the population. Therefore, it is feasible to achieve a faster and wider protection response by amplifying the infection signal delivered by the phage in order to increase the number of "immune" bacteria at every lytic cycle. | + | Given this global protection vision emerges the idea of dividing our project in two subsystems: ''''''[[Team:LCG-UNAM-Mexico/Description#Delivery| delivery]]'''''' and '''[[Team:LCG-UNAM-Mexico/Description#Defense| defense]]'''. Their coupled expression leads to a cascade dependent on the presence of an infectious phage. This property gives an extra versatility to the project because the defense subsystem turns on faster enough to hold back the infection and then lasts enough to give "immunity" to the population. Therefore, it is feasible to achieve a faster and wider protection response by amplifying the infection signal delivered by the phage in order to increase the number of "immune" bacteria at every lytic cycle. |
==='''Portability'''=== | ==='''Portability'''=== |
Revision as of 14:09, 21 October 2009