Team:EPF-Lausanne/Our Project/T7 promoter variants

From 2011.igem.org

(Difference between revisions)
(The Making Of)
(The Making Of)
Line 2: Line 2:
We made two families of T7 promoter variants. One family has mutations on the T7 promoter consensus sequence while the other has the same set of mutations on the consensus sequence but also has a lac operator downstream of the T7 promoter (but upstream of the reporter RFP or Lysis). In each family, we made six designed variants with different predicted promoter strengths compared to the wildtype and also made three sets of randomer variants which we wanted to use to check the overall range of promoter strength.  
We made two families of T7 promoter variants. One family has mutations on the T7 promoter consensus sequence while the other has the same set of mutations on the consensus sequence but also has a lac operator downstream of the T7 promoter (but upstream of the reporter RFP or Lysis). In each family, we made six designed variants with different predicted promoter strengths compared to the wildtype and also made three sets of randomer variants which we wanted to use to check the overall range of promoter strength.  
-
== The Making Of ==
+
== The Making Of A Variant ==
To produce these T7 promoter variants, we used a two-step PCR process. The first PCR, which we call "gene-specific" PCR, is a typical PCR that adds a ribosome-binding site (rbs) in front of either RFP or the Lysis operon and adds a terminator downstream.  
To produce these T7 promoter variants, we used a two-step PCR process. The first PCR, which we call "gene-specific" PCR, is a typical PCR that adds a ribosome-binding site (rbs) in front of either RFP or the Lysis operon and adds a terminator downstream.  

Revision as of 16:58, 17 September 2011