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Test by Martin for simileXML
Originally submitted to PLaSMo on 2012-03-08 11:39:23
Submitter: BioData SynthSys
Biological problem addressed: Gene Regulatory Network
Investigation: Beaton, Martin
Study: Martin test - PLM_65
Test by Martin for simileXML
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Version 2, the product of many seconds of research..
Originally submitted to PLaSMo on 2012-03-08 11:39:23
Submitter: BioData SynthSys
Biological problem addressed: Gene Regulatory Network
Investigation: Beaton, Martin
Study: Martin test - PLM_65
This is a very simple generic vegetation model, with just one state variable (plant biomass), and two processes: assimilation and respiration. In the original paper, the model is used twice, once for the trees and once for the grass under the trees, with the grass receiving light not intercepted by the trees. The model provided here is just for a single vegetation component.Related PublicationsMcMurtrie RE, Wolf L (1983). A model of competition between trees and grass for radiation, water and ...
Submitter: BioData SynthSys
Biological problem addressed: Gene Regulatory Network
Investigation: Muetzelfeldt, Robert
This is a very simple generic vegetation model, with just one state variable (plant biomass), and two processes: assimilation and respiration. In the original paper, the model is used twice, once for the trees and once for the grass under the trees, with the grass receiving light not intercepted by the trees. The model provided here is just for a single vegetation component.Related PublicationsMcMurtrie RE, Wolf L (1983). A model of competition between trees and grass for radiation, water and ...
Submitter: BioData SynthSys
Biological problem addressed: Gene Regulatory Network
Investigation: Muetzelfeldt, Robert
Validation: Validated against the original running in Excel. Each calculation in the model was individually validated as well. Comments on numerical integration: Euler integration with time steps of 1. In Simile the "time units" were set to "day" and execution was for 364 days as the simulation starts at time 0 (not time 1 as in the Excel model). Comments on running Simile model: Users must specify the temperature controlled growing season themselves. To do this use the following steps which take ...
Submitter: BioData SynthSys
Biological problem addressed: Gene Regulatory Network
Investigation: Davey, Chris
Study: Miscanmod - PLM_3
Model files accompanying Seaton et al., Molecular Systems Biology, 2015 Abstract: Clock?regulated pathways coordinate the response of many developmental processes to changes in photoperiod and temperature. We model two of the best?understood clock output pathways in Arabidopsis, which control key regulators of flowering and elongation growth. In flowering, the model predicted regulatory links from the clock to CYCLING DOF FACTOR 1 (CDF1) and FLAVIN?BINDING, KELCH REPEAT, F?BOX 1 (FKF1) transcription. ...
Submitter: BioData SynthSys
Biological problem addressed: Gene Regulatory Network
Investigation: Seaton, Daniel
This is a modified version of Biomodels89, containing a light-forcing function. This variant is configured to run cycles of LD8:16Related Publicationsocke JC, Kozma-Bognár L, Gould PD, Fehér B, Kevei E, Nagy F, Turner MS, Hall A, Millar AJ. (2006). Experimental validation of a predicted feedback loop in the multi-oscillator clock of Arabidopsis thaliana. . Mol Syst Biol . Originally submitted to PLaSMo on 2012-03-29 10:24:44
Submitter: BioData SynthSys
Biological problem addressed: Gene Regulatory Network
Investigation: Adams, Richard