FBPAase model

Overview
Related items

Mathematical model for FBPAase kinetics, saturation of GAP and DHAP

SEEK ID: https://demo.fairdomhub.org/assays/22

Class: Modelling analysis

Projects: SulfoSys

Investigation: Central Carbon Metabolism of Sulfolobus solfataricus

Study: Model gluconeogenesis

Assay position:

Biological problem addressed: Model Analysis Type

Organisms: Sulfolobus solfataricus : P2 (wild-type / wild-type)

Model:

FBPAase kinetic model

Data:

FBPA/ase kinetics DHAP
FBPA/ase kinetics GAP
Model simulation and experimental data for DHAP and GAP saturation of FBPA/ase

Help

Tree Split Graph

Export PNG

Click below to download a copy of the image

Download

Creators and Submitter

Creators

Not specified

Submitter

Jacky Snoep

Activity

Views: 6575

Created: 1st Feb 2013 at 21:47

Last updated: 26th Oct 2017 at 09:57

Related items

People (1)
Programmes (1)
Projects (1)
Investigations (1)
Studies (1)
Strains (1)
Data files (3)
Models (1)
Publications (1)

Advanced People list for this Assay with search and filtering

Jacky Snoep

Projects: SysMO-LAB, PSYSMO, MOSES, SulfoSys, SysMO DB

Institutions: Manchester Centre for Integrative Systems Biology, University of Manchester, University of Stellenbosch

Advanced Programmes list for this Assay with search and filtering

SysMO

SysMO is a European transnational funding and research initiative on "Systems Biology of Microorganisms".

The goal pursued by SysMO is to record and describe the dynamic molecular processes going on in unicellular microorganisms in a comprehensive way and to present these processes in the form of computerized mathematical models.

Systems biology will raise biomedical and biotechnological research to a new quality level and contribute markedly to progress in understanding. Pooling European research ...

Projects: BaCell-SysMO, COSMIC, SUMO, KOSMOBAC, SysMO-LAB, PSYSMO, SCaRAB, MOSES, TRANSLUCENT, STREAM, SulfoSys, SysMO DB

Web page: http://sysmo.net/

Advanced Projects list for this Assay with search and filtering

SulfoSys

Silicon cell model for the central carbohydrate metabolism of the archaeon Sulfolobus solfataricus under temperature variation

Programme: SysMO

Public web page: http://sulfosys.com/

Organisms: Sulfolobus solfataricus

Advanced Investigations list for this Assay with search and filtering

Central Carbon Metabolism of Sulfolobus solfataricus

SulfoSys

All creators

Jacky Snoep

An investigation in the CCM of S. solfataricus with a focus on the unique temperature adaptations and regulation; using a combined modelling and experimental approach.

Submitter: Jacky Snoep

Studies: Carbon loss at high T, Model gluconeogenesis, Pathway optimisation

Assays: Experimental assays of the temperature dependent degradation of GAP and ..., FBPA/ase, FBPAase model, GAPDH, GAPDH modeling, Gluconeogenic model, Model reconstituted system, Modelling pathway optimisation, Modelling temperature dependent degradation of GAP and DHAP, PGK, PGK and FBPAase titrations, PGK modeling, Reconstituted system reference state, TPI, TPI modeling

Snapshots: Snapshot 1

Created: 29th Jan 2013 at 14:09, Last updated: 28th May 2015 at 08:50

Advanced Studies list for this Assay with search and filtering

Model gluconeogenesis

SulfoSys

All creators

Jacky Snoep

Mathematical model of a subset of reactions comprising the three most temperature sensitive intermediates of the gluconeogenic pathway in S. solfataricus

Submitter: Jacky Snoep

Investigation: Central Carbon Metabolism of Sulfolobus solfata...

Assays: Experimental assays of the temperature dependent degradation of GAP and ..., FBPA/ase, FBPAase model, GAPDH, GAPDH modeling, Gluconeogenic model, Modelling temperature dependent degradation of GAP and DHAP, PGK, PGK modeling, TPI, TPI modeling

Snapshots: No snapshots

Created: 29th Jan 2013 at 14:16, Last updated: 28th May 2015 at 08:50

Advanced Strains list for this Assay with search and filtering

Submitter: Not available

Provider Name: Not specified

Provider's strain ID: Not specified

Organism: Sulfolobus solfataricus

Genotypes: wild-type

Phenotypes: wild-type

Comment: Not specified

Created: 28th Apr 2010 at 16:17, Last updated: 18th Jul 2012 at 12:26

Advanced Data files list for this Assay with search and filtering

FBPA/ase kinetics GAP

SulfoSys

All creators

Jacky Snoep

No description specified

Creators: None

Submitter: Jacky Snoep

Relationship type: Construction data

Investigations: Central Carbon Metabolism of Sulfolobus solfata...

Studies: Model gluconeogenesis

Assays: FBPA/ase, FBPAase model

Download

Created: 29th Jan 2013 at 20:52, Last updated: 28th May 2015 at 08:50

FBPA/ase kinetics DHAP

SulfoSys

All creators

Jacky Snoep

No description specified

Creators: None

Submitter: Jacky Snoep

Relationship type: Construction data

Investigations: Central Carbon Metabolism of Sulfolobus solfata...

Studies: Model gluconeogenesis

Assays: FBPA/ase, FBPAase model

Download

Created: 29th Jan 2013 at 20:53, Last updated: 28th May 2015 at 08:50

Model simulation and experimental data for DHAP and GAP saturation of FBPA/ase

SulfoSys

All creators

Jacky Snoep

Model simulation and experimental data for DHAP and GAP saturation of FBPA/ase

Creator: Jacky Snoep

Submitter: Jacky Snoep

Relationship type: Construction data

Investigations: Central Carbon Metabolism of Sulfolobus solfata...

Studies: Model gluconeogenesis

Assays: FBPA/ase, FBPAase model

Download

Created: 1st Feb 2013 at 13:57, Last updated: 28th May 2015 at 08:50

Advanced Models list for this Assay with search and filtering

FBPAase kinetic model

SulfoSys

All creators

Jacky Snoep

Mathematical model for FBPAase kinetics

Creator: Jacky Snoep

Submitter: Jacky Snoep

Model type: Ordinary differential equations (ODE)

Model format: Mathematica

Environment: Not specified

Organism: Sulfolobus solfataricus

Investigations: Central Carbon Metabolism of Sulfolobus solfata...

Studies: Model gluconeogenesis

Assays: FBPAase model

Download

Created: 1st Feb 2013 at 21:50, Last updated: 28th May 2015 at 08:50

Advanced Publications list for this Assay with search and filtering

Intermediate instability at high temperature leads to low pathway efficiency for an in vitro reconstituted system of gluconeogenesis in Sulfolobus solfataricus

SulfoSys

All creators

Jacky Snoep

Abstract (Expand)

Four enzymes of the gluconeogenic pathway in Sulfolobus solfataricus were purified and kinetically characterized. The enzymes were reconstituted in vitro to quantify the contribution of temperature … instability of the pathway intermediates to carbon loss from the system. The reconstituted system, consisting of phosphoglycerate kinase, glyceraldehyde 3-phosphate dehydrogenase, triose phosphate isomerase and the fructose 1,6-bisphosphate aldolase/phosphatase, maintained a constant consumption rate of 3-phosphoglycerate and production of fructose 6-phosphate over a 1-h period. Cofactors ATP and NADPH were regenerated via pyruvate kinase and glucose dehydrogenase. A mathematical model was constructed on the basis of the kinetics of the purified enzymes and the measured half-life times of the pathway intermediates. The model quantitatively predicted the system fluxes and metabolite concentrations. Relative enzyme concentrations were chosen such that half the carbon in the system was lost due to degradation of the thermolabile intermediates dihydroxyacetone phosphate, glyceraldehyde 3-phosphate and 1,3-bisphosphoglycerate, indicating that intermediate instability at high temperature can significantly affect pathway efficiency.

Authors: T. Kouril, D. Esser, J. Kort, H. V. Westerhoff, B. Siebers, J. L. Snoep

Date Published: 22nd Aug 2013

Publication Type: Not specified

PubMed ID: 23865479

Citation: FEBS J. 2013 Sep;280(18):4666-80. doi: 10.1111/febs.12438. Epub 2013 Aug 22.

Created: 9th Jun 2015 at 12:00, Last updated: 6th Dec 2022 at 11:21