Models
132 Models visible to you, out of a total of 232
Exactly the same as model 243, but uploaded as a file rather than copied from PlaSMo.
Creator: Andrew Millar
Contributor: Andrew Millar
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
DownloadThis version is P2011.1.2, model ID PLM_71 version 1. Dynamics identical to P2011.1.1 of the Pokhilko et al. 2012 publication.
http://www.plasmo.ed.ac.uk/plasmo/models/download.shtml?accession=PLM_71&version=1
Creator: Andrew Millar
Contributor: Andrew Millar
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
Python scripts to run the analysis estimating rates of protein synthesis in the light and dark, and overall rates of protein turnover, in Cyanothece and Ostrecoccus tauri.
Creators: Daniel Seaton, Andrew Millar
Contributor: Daniel Seaton
Model type: Not specified
Model format: Not specified
Environment: Not specified
Creator: Daniel Seaton
Contributor: Daniel Seaton
Model type: Algebraic equations
Model format: Not specified
Environment: Not specified
This mechanistic ODE model describes the growth dynamics of P. aeruginosa, including an antibiotic-induced morphological transition to a fragile spherical form.
Creators: Chloe Spalding, Sara Jabbari
Contributor: Chloe Spalding
Model type: Not specified
Model format: Not specified
Environment: Not specified
PGK-GAPDH model Sulfolobus kouril8
Creator: Jacky Snoep
Contributor: Jacky Snoep
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
PGK-GAPDH model yeast kouril7
Creator: Jacky Snoep
Contributor: Jacky Snoep
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
PGK-GAPDH models yeast and Sulfolobus Fig. 4 in manuscript
Creator: Jacky Snoep
Contributor: Jacky Snoep
Model type: Ordinary differential equations (ODE)
Model format: Mathematica
Environment: Mathematica
PGK 70C model, Fig 3 in manuscript
Creator: Jacky Snoep
Contributor: Jacky Snoep
Model type: Ordinary differential equations (ODE)
Model format: Mathematica
Environment: Mathematica
PGK 70C SBML
Creator: Jacky Snoep
Contributor: Jacky Snoep
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
BPG stability notebook
Creator: Jacky Snoep
Contributor: Jacky Snoep
Model type: Ordinary differential equations (ODE)
Model format: Mathematica
Environment: Mathematica
PGK yeast Fig1a
Creator: Jacky Snoep
Contributor: Jacky Snoep
Model type: Ordinary differential equations (ODE)
Model format: Mathematica
Environment: Mathematica
PGK yeast with/without recycling
Creator: Jacky Snoep
Contributor: Jacky Snoep
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
Creators: Dawie Van Niekerk, Jacky Snoep
Contributor: Dawie Van Niekerk
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
Creator: Robert Muetzelfeldt
Contributor: Robert Muetzelfeldt
Model type: Ordinary differential equations (ODE)
Model format: Not specified
Environment: Not specified
Creators: Dawie Van Niekerk, Jacky Snoep
Contributor: Dawie Van Niekerk
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: Not specified
Creators: Dawie Van Niekerk, Jacky Snoep
Contributor: Dawie Van Niekerk
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: Not specified
Metabolic model of Sulfolobus solfataricus P2 in the SBML (xml) and metano (txt, sce, fba) format. Scenarios are specific for growth on D-glucose or L-fucose as sole carbon source. Different theoretical routes of L-fucose degradation were modeled (E. coli-like, Xanthomonas-like and lactaldehyde-forming). Highest overall agreement between the model and experimental data was observed for the lactaldehyde-forming route.
Creators: Jacqueline Wolf, Helge Stark, Dietmar Schomburg
Contributor: Jacqueline Wolf
Model type: Metabolic network
Model format: SBML
Environment: Not specified
This is BIOMD0000000005.
Creators: Ron Henkel, Dagmar Waltemath
Contributor: Ron Henkel
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: Copasi
Creator: Matthias König
Contributor: Matthias König
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: Not specified
The model presents a multi-compartmental (mesophyll, phloem and root) metabolic model of growing Arabidopsis thaliana. The flux balance analysis (FBA) of the model quantifies: sugar metabolism, central carbon and nitrogen metabolism, energy and redox metabolism, proton turnover, sucrose translocation from mesophyll to root and biomass growth under both dark- and light-growth conditions with corresponding growth either on starch (in darkness) or on CO2 (under light). The FBA predicts that
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Creators: Maksim Zakhartsev, Olga Krebs, Irina Medvedeva, Ilya Akberdin, Yuriy Orlov
Contributor: Maksim Zakhartsev
Model type: Metabolic network
Model format: SBML
Environment: Not specified
E.coli Core model, with additional reactions added to generate the beta-oxadation cycle. This is the basic model used in RobOKoD: microbial strain design for (over)production of target compounds (http://fairdomhub.org/publications/236).
Creator: Natalie Stanford
Contributor: Natalie Stanford
Model type: Metabolic network
Model format: SBML
Environment: Matlab
Creators: Dawie Van Niekerk, Jacky Snoep
Contributor: Dawie Van Niekerk
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
Creators: Dawie Van Niekerk, Jacky Snoep
Contributor: Dawie Van Niekerk
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
Creators: Dawie Van Niekerk, Jacky Snoep
Contributor: Dawie Van Niekerk
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
Creators: Dawie Van Niekerk, Jacky Snoep
Contributor: Dawie Van Niekerk
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
Creators: Dawie Van Niekerk, Jacky Snoep
Contributor: Dawie Van Niekerk
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
Creators: Dawie Van Niekerk, Jacky Snoep
Contributor: Dawie Van Niekerk
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
Creator: Jacky Snoep
Contributor: Jacky Snoep
Model type: Not specified
Model format: Not specified
Environment: Not specified
Creator: Jacky Snoep
Contributor: Jacky Snoep
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: JWS Online
