Locke2006_CircadianClock_tanh - PLM_10, version 1
This is a version derived from a model from the article: <strong>Experimental validation of a predicted feedback loop in the multi-oscillator clock of Arabidopsis thaliana. </strong> Locke JC, Kozma-Bognár L, Gould PD, Fehér B, Kevei E, Nagy F, Turner MS, Hall A, Millar AJ <em>Mol. Syst. Biol.</em>2006;Volume:2;Page:59 <a href="http://www.ncbi.nlm.nih.gov/pubmed/17102804">17102804</a>,
The model describes a three loop circuit of the Arabidopsis circadian clock. It provides initial conditions, parameter values and reactions for the production rates of the following species: LHY mRNA (cLm), cytoplasmic LHY (cLc), nuclear LHY (cLn), TOC1 mRNA (cTm), cytoplasmic TOC1 (cTc), nuclear TOC1 (cTn), X mRNA (cXm), cytoplasmic X (cXc), nuclear X (cXn), Y mRNA (cYm), cytoplasmic Y (cYc), nuclear Y (cYn), nuclear P (cPn), APRR7/9 mRNA, cytoplasmic APRR7/9, and nuclear APRR7/9.
The paper describes the behaviour of the model in constant light (LL) and day-night cycles (LD). The version curated on Biomodels had no LD input, allowing only simulation in LL conditions<strong>:</strong> <a href="http://www.ebi.ac.uk/biomodels/models-main/publ/BIOMD0000000089.xml.origin"><i>BIOMD0000000089.xml.origin</i></a>.
The version uploaded here uses a better description of the light-dark cycle, by Drs. Ozgur Akman and Kevin Stratford. The model contains a candidate for a community-standard cyclic function, which uses tanh functions to achieve rapid yet numerically continuous steps from light to darkness. The SBML file was validated by CSBE, including by Dr. Richard Adams.
Related Publications
Locke JC, Southern MM, Kozma-Bognár L, Hibberd V, Brown PE, Turner MS, Millar AJ (2006). Extension of a genetic network model by iterative experimentation and mathematical analysis.. Mol. Syst. Biol.. Retrieved from: http://www.ncbi.nlm.nih.gov/pubmed/16729048
Originally submitted to PLaSMo on 2010-05-12 17:38:15
SEEK ID: https://fairdomhub.org/assays/869
Modelling analysis
Projects: Millar group, PlaSMo model repository
Investigation: Millar, Andrew (ex-PlaSMo models)
Study: Locke2006_CircadianClock_tanh - PLM_10
Assay position:
Biological problem addressed: Gene Regulatory Network
Organisms: No organisms
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Created: 10th Jan 2019 at 16:41
Last updated: 22nd Jan 2019 at 17:20
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Projects: Millar group, TiMet, PHYTOCAL: Phytochrome Control of Resource Allocation and Growth in Arabidopsis and in Brassicaceae crops, POP - the Parameter Optimisation Problem, Regulation of flowering time in natural conditions, PlaSMo model repository
Institutions: University of Edinburgh
https://orcid.org/0000-0003-1756-3654
Projects: PlaSMo model repository
Institutions: University of Edinburgh
SynthSys is the University of Edinburgh's research organisation in interdisciplinary, Synthetic and Systems Biology, founded in 2012 as the successor to the Centre for Systems Biology at Edinburgh (CSBE).
Projects: Millar group, PHYTOCAL: Phytochrome Control of Resource Allocation and Growth in Arabidopsis and in Brassicaceae crops, TiMet, POP - the Parameter Optimisation Problem, Regulation of flowering time in natural conditions, PlaSMo model repository
Web page: http://www.synthsys.ed.ac.uk
What is PlaSMo? PlaSMo stands for Plant Systems-biology Modelling Ensuring the achievements of yesterday's Mathematical Modellers will be available for the Systems Biologists of tomorrow.
Our aims
To identify plant mathematical models useful to the UK plant systems biology community, which are currently in a variety of legacy formats and in danger of being lost
To represent these models in a declarative XML-based format, which is closer to the systems biology standard SBML To evaluate the behaviour ...
Programme: SynthSys
Public web page: Not specified
Andrew Millar's research group, University of Edinburgh
Programme: SynthSys
Public web page: http://www.amillar.org
Collection of models submitted to PLaSMo by Andrew Millar and automatically transferred to FAIRDOM Hub.
Submitter: BioData SynthSys
Studies: Arabidopsis clock model P2011, graphical diagram - PLM_1045, Arabidopsis clock model P2011.3.1 - PLM_1041, Arabidopsis clock model P2011.4.1 - PLM_1042, Arabidopsis clock model P2011.5.1 - PLM_1043, Arabidopsis clock model P2011.6.1 - PLM_1044, Arabidopsis clock models P2011.1.2 and P2011.2.1 - PLM_71, Arabidopsis_clock_P2011 - PLM_64, Arabidopsis_clock_P2012 - PLM_70, At_Pokh2011_LD_degr_Op1Ap3.xml - PLM_67, At_Pokh2011v6_plasmo_ltdParams.xml - PLM_68, AuxSim - PLM_27, AuxSim full - PLM_30, DomijanTS_AtClock2011 - PLM_50, Locke2005_CircadianClock_tanh - PLM_8, Locke2006_CircadianClock_tanh - PLM_10, OK MEP pathway 2013 - PLM_72, P2012_AJMv2_NoABA - PLM_69, Salazar2009_FloweringPhotoperiod - PLM_9, Sorokina2011_Ostreo_starch - PLM_44, Wilczek photothermal Science - PLM_48
Assays: Arabidopsis clock model P2011, graphical diagram - PLM_1045, version 1, Arabidopsis clock model P2011.1.2 - PLM_71, version 1, Arabidopsis clock model P2011.2.1 - PLM_71, version 2, Arabidopsis clock model P2011.3.1 - PLM_1041, version 1, Arabidopsis clock model P2011.4.1 - PLM_1042, version 1, Arabidopsis clock model P2011.5.1 - PLM_1043, version 1, Arabidopsis clock model P2011.6.1 - PLM_1044, version 1, Arabidopsis_clock_P2011 - PLM_64, version 1, Arabidopsis_clock_P2011 - PLM_64, version 2, Arabidopsis_clock_P2011 - PLM_64, version 3, Arabidopsis_clock_P2011 - PLM_64, version 4, Arabidopsis_clock_P2012 - PLM_70, version 1, Arabidopsis_clock_P2012 - PLM_70, version 2, At_Pokh2011_LD_degr_Op1Ap3.xml - PLM_67, version 1, At_Pokh2011_LD_degr_Op1Ap3.xml - PLM_67, version 2, At_Pokh2011_LD_degr_Op1Ap3.xml - PLM_67, version 3, At_Pokh2011_LD_degr_Op1Ap3.xml - PLM_67, version 4, At_Pokh2011_LD_degr_Op1Ap3.xml - PLM_67, version 5, At_Pokh2011_LD_degr_Op1Ap3.xml - PLM_67, version 6, At_Pokh2011v6_plasmo_ltdParams.xml - PLM_68, version 1, AuxSim - PLM_27, version 1, AuxSim full - PLM_30, version 1, DomijanTS_AtClock2011 - PLM_50, version 1, DomijanTS_AtClock2011 - PLM_50, version 2, Locke2005_CircadianClock_tanh - PLM_8, version 1, Locke2006_CircadianClock_tanh - PLM_10, version 1, OK MEP pathway 2013 - PLM_72, version 1, P2012_AJMv2_NoABA - PLM_69, version 1, P2012_AJMv2_NoABA - PLM_69, version 2, Salazar2009_FloweringPhotoperiod - PLM_9, version 1, Salazar2009_FloweringPhotoperiod - PLM_9, version 2, Sorokina2011_Ostreo_starch - PLM_44, version 1, Wilczek photothermal Science - PLM_48, version 1, Wilczek photothermal Science - PLM_48, version 2
This is a version derived from a model from the article: Experimental validation of a predicted feedback loop in the multi-oscillator clock of Arabidopsis thaliana. Locke JC, Kozma-Bognár L, Gould PD, Fehér B, Kevei E, Nagy F, Turner MS, Hall A, Millar AJ Mol. Syst. Biol.2006;Volume:2;Page:59 17102804, The model describes a three loop circuit of the Arabidopsis circadian clock. It provides initial conditions, parameter values and reactions for the production rates of the following species: LHY ...
Submitter: BioData SynthSys
Investigation: Millar, Andrew (ex-PlaSMo models)
Simplified model file for PLaSMo accession ID PLM_10, version 1 (use simplified if your software cannot read the file, e.g. Sloppy Cell)
Creators: BioData SynthSys, Andrew Millar, Andrew Millar
Submitter: BioData SynthSys
Model type: Not specified
Model format: SBML
Environment: Not specified
Originally submitted model file for PLaSMo accession ID PLM_10, version 1
Creators: BioData SynthSys, Andrew Millar, Andrew Millar
Submitter: BioData SynthSys
Model type: Not specified
Model format: SBML
Environment: Not specified
