User:Jaroslaw Karcz/Sandbox: Difference between revisions
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A review through literature suggests that multiple models have been developed to describe this feature of the system. The most widely used models are the Monod, Grau, Teisser, Moser and Contois equations. | A review through literature suggests that multiple models have been developed to describe this feature of the system. The most widely used models are the Monod, Grau, Teisser, Moser and Contois equations. | ||
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These equations describe the functional relationship between the microbial growth rate and essential substrate(nutrient) concentration. | |||
Revision as of 05:18, 20 September 2007
20 September 2007
It was suggested that the levelling-off of the fluorescence-time curve for construct 1 (T9002) could more realistically be attributed to the extinction of "energy" in the system. For this reason, the model for Infector Dectector needed to be amended, to include this phenomenon.
Microbial growth rate as function of single rate-limiting substrate
Although a study of microbial growth rate is undertaken here, this could be amended to feature the system survival/lifetime, as we are dealing with S30 cell extract.
A review through literature suggests that multiple models have been developed to describe this feature of the system. The most widely used models are the Monod, Grau, Teisser, Moser and Contois equations.
These equations describe the functional relationship between the microbial growth rate and essential substrate(nutrient) concentration.
