SEEK ID: https://fairdomhub.org/models/838?version=2
2 items are associated with this Model:Organism: Not specified
Model type: Ordinary differential equations (ODE)
Model format: SBML
Execution or visualisation environment: JWS Online
Model image: No image specified
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Created: 25th Apr 2023 at 11:27
Last updated: 14th Oct 2023 at 18:37
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Version History
Version 2 (latest) Created 14th Oct 2023 at 18:37 by Dawie van Niekerk
Added model in csv format. Can be directly imported in notebooks.
Version 1 (earliest) Created 25th Apr 2023 at 11:27 by Dawie van Niekerk
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Projects: PSYSMO, MOSES, SysMO DB, SysMO-LAB, SulfoSys, SulfoSys - Biotec, Whole body modelling of glucose metabolism in malaria patients, FAIRDOM, Molecular Systems Biology, COMBINE Multicellular Modelling, HOTSOLUTE, Steroid biosynthesis, Yeast glycolytic oscillations, Computational pathway design for biotechnological applications, SCyCode The Autotrophy-Heterotrophy Switch in Cyanobacteria: Coherent Decision-Making at Multiple Regulatory Layers, Project Coordination, WP 3: Drug release kinetics study, Glucose metabolism in cancer cell lines
Institutions: Manchester Centre for Integrative Systems Biology, University of Manchester, University of Stellenbosch, University of Manchester - Department of Computer Science, Stellenbosch University
The Snoep Lab’s core research efforts are in Computational Systems Biology; a combined experimental, modeling and theoretical approach to quantitatively understand the functional behavior of Biological Systems resulting from the characteristics of their components. Our main focus is on metabolism, of human pathogens such as Plasmodium falciparum, Mycobacterium tuberculosis, but also of breast cancer cell lines, and on modelling disease states such as glucose homeostatis in type 2 diabetes, and ...
Projects: Whole body modelling of glucose metabolism in malaria patients, Steroid biosynthesis, Yeast glycolytic oscillations, Computational pathway design for biotechnological applications, Glucose metabolism in cancer cell lines
Web page: http://www.sun.ac.za/english/faculty/science/biochemistry/research/snoep-group
Hypoglycaemia and lactic acidosis are key diagnostics for poor chances of survival in malaria patients. In this project we aim to test to what extent the metabolic activity of Plasmodium falciparum contributes to a changed glucose metabolism in malaria patients. The approach is to start with detailed bottom up models for the parasite and then merge these with more coarse grained models at the whole body level.
Programme: SARCHI: Mechanistic modelling of health and epidemiology
Public web page: Not specified
Organisms: Plasmodium falciparum, Homo sapiens
The investigation entails the construction and validation of a detailed mathematical model for glycolysis erythrocytes infected with the malaria parasite Plasmodium falciparum in the blood stage form.
Submitter: Dawie van Niekerk
Studies: Analysis of model for malaria-infected erythrocytes, Intra-erythrocytic malaria parasite volumes, Validation of model for malaria-infected erythrocytes
Assays: Flux vs external glucose, Flux vs parasitaemia, GLC incubation, Inhibition of glycolytic flux, Malaria parasite volume determinations, Metabolic control analysis, Stage specific fluxes, Steady-state
Snapshots: Snapshot 1
This study includes the experimental data for model validation and the model predictions of that data set.
Submitter: Dawie van Niekerk
Investigation: Glucose metabolism in Plasmodium falciparum inf...
Assays: Inhibition of glycolytic flux, Metabolic control analysis
Snapshots: No snapshots
This study includes the experimental data for model validation and the model predictions of that data set.
Submitter: Dawie van Niekerk
Investigation: Glucose metabolism in Plasmodium falciparum inf...
Assays: Flux vs external glucose, Flux vs parasitaemia, GLC incubation, Stage specific fluxes, Steady-state
Snapshots: No snapshots
Submitter: Dawie van Niekerk
Biological problem addressed: Validation
Investigation: Glucose metabolism in Plasmodium falciparum inf...
Organisms: Plasmodium falciparum
Models: Kinetic model for steady state (dutoit1), Steady state (trophozoite stage)
SOPs: No SOPs
Data files: Stage specific fluxes
Snapshots: No snapshots
Submitter: Dawie van Niekerk
Biological problem addressed: Validation
Investigation: Glucose metabolism in Plasmodium falciparum inf...
Organisms: Plasmodium falciparum
Models: Kinetic model for steady state (dutoit1), Stage specific fluxes
SOPs: No SOPs
Data files: Stage specific fluxes
Snapshots: No snapshots
Inhibition of lactate flux glycolytic inhibitors
Submitter: Dawie van Niekerk
Biological problem addressed: Model Analysis Type
Investigation: Glucose metabolism in Plasmodium falciparum inf...
Organisms: Plasmodium falciparum
Models: Glycolytic target analysis in malaria infected ..., Inhibition of glycolytic flux by glucose transp..., Kinetic model for steady state (dutoit1), Validation of lactate flux inhibition by glucos...
SOPs: No SOPs
Data files: Glycolytic flux inhibition data (erythrocytes), Lactate flux inhibition data
Snapshots: No snapshots
Submitter: Dawie van Niekerk
Biological problem addressed: Model Analysis Type
Investigation: Glucose metabolism in Plasmodium falciparum inf...
Organisms: Plasmodium falciparum
Models: Kinetic model for steady state (dutoit1), MCA
SOPs: No SOPs
Data files: No Data files
Snapshots: No snapshots