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Ribozyme-based insulator parts buffer synthetic circuits from genetic
Author:        Updatetime:2012-10-25 Printer      Text Size:A A A 

Title: Ribozyme-based insulator parts buffer synthetic circuits from genetic context

Presenter: Dr. LOU Chunbo   

University: Massachusetts Institute of Technology

Time: 14:00-15:00, October 25, 2012

Venue: Room A102, Institute of Microbiology, Chinese Academy of Sciences

Abstract: Synthetic genetic programs are built from circuits that integrate sensors and implement temporal control of gene expression. Transcriptional circuits are layered by using promoters to carry the signal between circuits. In other words, the output promoter of one circuit serves as the input promoter to the next. Thus, connecting circuits requires the physical connection of a promoter to the next circuit. We show that the sequence at the junction between the input promoter and circuit can affect the input-output response (transfer function) of the circuit. A library of putative sequences that might reduce (or buffer) such context effects, which we refer to as “insulator parts,” is screened in E. coli. We find that ribozymes that cleave the 5’ untranslated region (5’-UTR) of the mRNA are effective insulators. They generate quantitatively identical transfer functions, irrespective of the identity of the input promoter. When these insulators are used to join synthetic gene circuits, the behavior of layered circuits can be predicted using a mathematical model. The inclusion of insulators will be critical in reliably permuting circuits to build different programs.

 
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