Team:Paris/Analysis/Design1
From 2008.igem.org
(→The easiest way to control a sequential expression of gene) |
(→The easiest way to control a sequential expression of gene) |
||
Line 3: | Line 3: | ||
=Generating a FIFO sequential order of expression= | =Generating a FIFO sequential order of expression= | ||
A clock that would only indicate one hour, would not be very useful. The same goes for our BacteriO'clock. It is necessary that we add several distinct events in each cycle. We want to use three genes activated successively. | A clock that would only indicate one hour, would not be very useful. The same goes for our BacteriO'clock. It is necessary that we add several distinct events in each cycle. We want to use three genes activated successively. | ||
- | ==The easiest way to control a sequential expression of | + | ==The easiest way to control a sequential expression of genes== |
[[Image:Vaiselle sale.jpg|thumb|left|The washing of dirty plates traditionally follows a LIFO order : the last plate on the stack is the first one to be washed]][[Image:SIM.png|thumb|right|Network 1 : The Single Input Module can generate a LIFO temporal order.]] | [[Image:Vaiselle sale.jpg|thumb|left|The washing of dirty plates traditionally follows a LIFO order : the last plate on the stack is the first one to be washed]][[Image:SIM.png|thumb|right|Network 1 : The Single Input Module can generate a LIFO temporal order.]] | ||
Revision as of 18:55, 28 October 2008
Network Design - Part 1
Generating a FIFO sequential order of expressionA clock that would only indicate one hour, would not be very useful. The same goes for our BacteriO'clock. It is necessary that we add several distinct events in each cycle. We want to use three genes activated successively. The easiest way to control a sequential expression of genes
In the FIFO you could start by saying we were looking for a FIFO and rather than designing it from scratch we decided to look in nature where we found and adopted the flagella which then inspired us further |