Difference between revisions of "Team:Aix-Marseille/Design"

(Mobilisation by a siderophore)
(Pathway of the desferrioxamine B biosynthesis)
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===Pathway of the desferrioxamine B biosynthesis===
 
===Pathway of the desferrioxamine B biosynthesis===
[[File:T--Aix-Marseille--desABCD.jpeg|300px|left|thumb|Desferrioxamine B pathway]]  
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[[File:T--Aix-Marseille--desABCD.jpeg|600px|left|thumb|Desferrioxamine B pathway]]  
  
 
Previous work showed that siderophore which are molecule secreted by bacteria to catch iron are able to catch other metals by default. Especifically, many articles showed a high affinity of Desferrioxamine B ( produce by ''Streptomyces coelicolor'') for tetravalent metal ions and more specifically platinum. These results encouraged us to make a biobrick coding the sequence corresponding to the 4 enzymes involved on the metabolic pathway of Desferrioxamine B. ''E. coli'' was used to produce this biobrick. Produce a gram positive bacteria pathway in a gram negative bacteria is restrictive, considering the risk of toxicity for the conductress bacteria. To counter this potential issue, we regulate trasnscription using the control of an inductible promotor (pBAD/araC).   
 
Previous work showed that siderophore which are molecule secreted by bacteria to catch iron are able to catch other metals by default. Especifically, many articles showed a high affinity of Desferrioxamine B ( produce by ''Streptomyces coelicolor'') for tetravalent metal ions and more specifically platinum. These results encouraged us to make a biobrick coding the sequence corresponding to the 4 enzymes involved on the metabolic pathway of Desferrioxamine B. ''E. coli'' was used to produce this biobrick. Produce a gram positive bacteria pathway in a gram negative bacteria is restrictive, considering the risk of toxicity for the conductress bacteria. To counter this potential issue, we regulate trasnscription using the control of an inductible promotor (pBAD/araC).   

Revision as of 19:44, 12 October 2016