Team:EPF-Lausanne/Our Project/T7 promoter variants/t7prom
From 2011.igem.org
Lysis Selection System
Lysis selection system Main | Lysis Characterization | DNA Recovery | DNA Selection | T7 Promoter VariantsContents |
T7 Promoter Variants
Introduction
The success of any piece of biological circuitry, like the kind we are presenting in our system, hinges substantially on the time-scales required for the activation of its components. If one component reacts more quickly than another, the whole system will desynchronize and all pertinent biological information will be lost.
In our case, one of the key steps is the activation of the lysis cassette which is controlled by the T7 promoter. The rest of the system -- including any reporter systems that would lead to T7 RNA polymerase binding to a T7 promoter -- may depend on other parameters that affect the timescales in very delicate ways. It becomes crucial to have a variety of T7 promoter variants on hand, each of which has different
We made two families of T7 promoter variants. Each family has six designed mutants and three randomer mutants, and the difference between the two families is the addition of a lac operator sequence downstream of the T7 promoter. These promoter variants were characterized using fluorescence, revealing a wide range of promoter efficiencies.
List and Sequences of Variants
Characterization of Designed Variants
Characterization of Randomer Variants