Imperial/Cell by Date/Design

From 2007.igem.org

(Difference between revisions)
m
m (Cell by Date : Overview of Design)
Line 6: Line 6:
[[Image:CellByDateDesignWiki.png]]
[[Image:CellByDateDesignWiki.png]]
-
{|
+
{|border="1"
|-
|-
!Property:
!Property:

Revision as of 17:58, 19 October 2007


Cell by Date : Overview of Design

CellByDateDesignWiki.png

Property: Value Design Solution System Level
Health Regulations System Must not be living replicating bacteria Use a Cell Free System e.g. Promega's S30 Cell Extract Chassis
Lifespan System must have a shelf life of 7 days Protease Inhibitor of Cell Extract Should ensure degradation of Visual Reporter is Minimal
Proper Packaging should ensure that evaporation of Cell Free system is so low that
system can surive for 7 days
Chassis
Inputs Isothermal Conditions between 0 & 40 C Exploit Thermal Dependance of rates of expression Construct
Dynamic conditions eg. steps & ramps " Construct
Outputs System should give a visual signal
when beef is off
Couple constituitive promoter to a Fluoresent Protein eg. RFP Construct
Activation Energy System Needs to have an activation Energy 30 +/- kJ/mol To be Determined - this is hard to design for Construct
Response Time System needs to have a response time under 1 hour To be Determined - this is hard to design for

Chassis Selection

We have chosen to use the commerciall available S30 extract made by Promega. After having looking into a variety of different chassis here (link to cell free section) we feel that this chassis best suits our needs. In particular this chassis allows us to meet our base requirement of compling with the Health and Safety regulations of the field we are working in, we don't want a live system near our burger meat as potential leak of our system could mean that our system actually spoils the burger meat !!

In addition to complying with health regulations the S30 cell extract is commercially available meaning that it has been shown to work. This is very important for us as it allows our focus to be on tuning the chassis to suit our needs rather than making the chassis work in the first place.

Construct Selection

In previous research and also in previous iGEM project, Temperature as an input has been explored through cold shock and heat shock promoters. These promoters essentially only operatre for a given range of temperatures.

In making a Time Temperature Integrator we would like a promoter that works at all temperatures, increasing its rate of protein synthesis as temperature increases. We can realise this behaviour by using a simple constituitive promoter and exploiting the thermal dependance of its rate of synthesis, this type of behaviour has been characterised by Ryals as far back as 1982.

In terms of Activaiton Energy and Response Time we have been unable to find these in literature and to it is hard to make a design that will achieve these targets. However through the course of our experimentation we will determine these properties and hopefullly their values will suit our interests.