Team:Aberdeen Scotland/Equations

(Difference between revisions)

Revision as of 17:27, 12 August 2010

University of Aberdeen - ayeSwitch - iGEM 2010

iGEM 2010

/text{\operatorname{d}[M_{1}]\over\operatorname{d}t = &lambda_{1} [GAL]^i_{1} \over\ k_{1} ^i_{1} + [GAL]^i_{1} - &mu[M_{1}] - T[M_{1}] + &beta_{1}}

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-== Our Ordinary Differential Equations ==
 <math>/text{\operatorname{d}[M_{1}]\over\operatorname{d}t = &lambda_{1} [GAL]^i_{1} \over\ k_{1} ^i_{1} + [GAL]^i_{1} - &mu[M_{1}] - T[M_{1}] + &beta_{1}}</math>
-This is the equation for the rate of change of the mRNA that is transcribed
-from the galactose promoter. The three terms represent production, degra-
-dation, and dilution respectively.
-----
-[[Image:dGFP.jpg]]
-This is the equation for the rate of change of protein that is translated from
-the mRNA for GFP. The three terms represent production, degradation, and
-dilution respectively.
-----
-[[Image:dm2.jpg]]
-This is the equation for the rate of change of the mRNA that is transcribed
-from the copper promoter. The three terms represent production, degrada-
-tion, and dilution respectively.
-----
-[[Image:dCFP.jpg]]
-This is the equation for the rate of change of protein that is translated from
-the mRNA for CFP. The three terms represent production, degradation, and
-dilution respectively.