Team:NTU-Singapore/Modelling/Results

Revision as of 04:15, 26 June 2008 (view source)

Lalala8585 (Talk | contribs)

← Older edit

Latest revision as of 15:09, 30 June 2008 (view source)

Lalala8585 (Talk | contribs)

(Removing all content from page)

Line 1:

-

~~<html><link rel="stylesheet" href="http://greenbear88.googlepages.com/ntu_igem.css" type="text/css"></html>~~

-

~~<div id="header">{{User:Greenbear/sandbox/header}}</div>~~

-

~~<div id="maincontent" style="margin-top:200px;">~~

-

~~=Results of Modeling=~~

-

~~==Lactose Induced GFP production==~~

-

~~[[Image:GFP_LACTOSE.jpg|850px| GFP Production Model]]~~

-

~~==E7 production system==~~

-

~~[[Image:Lactose.jpg|850px| E7 Production Model]]~~

-

~~[[Image:Varying_lactose_input.jpg|850px| E7 Production Modeling Results]]~~

-

~~Modeling of the System shows that Lactose induction is essential to produce E7 and a variation of Lactose input can result in different yields of E7~~

-

~~==Lysis Production system==~~

-

~~[[Image:Lysis.jpg|850px| Lysis Production Model]]~~

-

~~[[Image:Varying_Lysis.jpg|850px|Lysis Prodcution Modeling Results]]~~

-

~~Here we define 1 as a certain threshold e.g. (<250 µM) that when the lysis protein reaches it, lysis in the cell definitely occurs.~~

-

Although we wish for an absolute AND gate, where 0 will have no lysis production at all, simulation on biological systems shows that such results are impossible. Both addition Fe ions and Ai-2 alone would induce a certain level of lysis production. However when both are available, the lysis protein production would be higher.

-

~~In the presence of Ai-2 alone, Lysis will most likely still occur albeit at a slower rate compared to situation when both Fe and Ai-2 are present.~~

-

~~With the addition of iron and Ai-2 together the rate of lysis production is still significantly much higher compared to Ai-2 alone.~~

-

Therefore, by giving the logical output ‘1’ as a suitable threshold value of Lysis protein production higher than that of Ai-2 induction alone, we would still be able to obtain an AND gate based on our definition.

@@ Line 1: / Line 1: @@
-<html><link rel="stylesheet" href="http://greenbear88.googlepages.com/ntu_igem.css" type="text/css"></html>
-<div id="header">{{User:Greenbear/sandbox/header}}</div>
-<div id="maincontent" style="margin-top:200px;">
-=Results of Modeling=
-==Lactose Induced GFP production==
-[[Image:GFP_LACTOSE.jpg|850px| GFP Production Model]]
-==E7 production system==
-[[Image:Lactose.jpg|850px| E7 Production Model]]
-[[Image:Varying_lactose_input.jpg|850px| E7 Production Modeling Results]]
-Modeling of the System shows that Lactose induction is essential to produce E7 and a variation of Lactose input can result in different yields of E7
-==Lysis Production system==
-[[Image:Lysis.jpg|850px| Lysis Production Model]]
-[[Image:Varying_Lysis.jpg|850px|Lysis Prodcution Modeling Results]]
-Here we define 1 as a certain threshold e.g. (<250 µM) that when the lysis protein reaches it, lysis in the cell definitely occurs.
-Although we wish for an absolute AND gate, where 0 will have no lysis production at all, simulation on biological systems shows that such results are impossible. Both addition Fe ions and Ai-2 alone would induce a certain level of lysis production. However when both are available, the lysis protein production would be higher.
-In the presence of Ai-2 alone, Lysis will most likely still occur albeit at a slower rate compared to situation when both Fe and Ai-2 are present.
-With the addition of iron and Ai-2 together the rate of lysis production is still significantly much higher compared to Ai-2 alone.
-Therefore, by giving the logical output ‘1’ as a suitable threshold value of Lysis protein production higher than that of Ai-2 induction alone, we would still be able to obtain an AND gate based on our definition.

Team:NTU-Singapore/Modelling/Results

From 2008.igem.org

Latest revision as of 15:09, 30 June 2008