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BPG stability analysis

BPG stability analysis

FAIRDOMHub ID: https://seek.sysmo-db.org/assays/575

Class: Modelling Analysis

Contributor: Jacky Snoep

Projects: SulfoSys, SulfoSys - Biotec

Investigation: Phosphoglycerate kinase acts as a futile cycle at high temperature

Study: Bpg stability

Biological problem addressed: Model Analysis Type

Organisms: No organisms

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Views: 241

Created: 29th Sep 2017 at 15:01

Last updated: 8th Nov 2017 at 15:21

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People (1)
Projects (2)
Investigations (1)
Studies (1)
Models (1)

Jacky Snoep

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

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

Disciplines: Not specified

Roles: Not specified

Expertise: Not specified

Tools: Not specified

No description specified

SulfoSys - Biotec

Within the e:Bio - Innovationswettbewerb Systembiologie (Federal Ministry of Education and Research (BMBF)), the SulfoSYSBIOTECH consortium (10 partners), aim to unravel the complexity and regulation of the carbon metabolic network of the thermoacidophilic archaeon Sulfolobus solfataricus (optimal growth at 80°C and pH 3) in order to provide new catalysts ‘extremozymes’ for utilization in White Biotechnology.

Based on the available S. solfataricus genome scale metabolic model (Ulas et al., 2012)
...

Programme: e:Bio

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

Organisms: Sulfolobus solfataricus

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

Phosphoglycerate kinase acts as a futile cycle at high temperature

SulfoSys, SulfoSys - Biotec

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Jacky Snoep

Theresa Kouril

Dawie Van Niekerk

The gluconeogenic conversion of 3-phosphoglycerate via 1,3-bisphosphoglycerate to glyceraldehyde-3-phosphate was compared at 30 C and at 70 C. At 30 C it was possible to produce 1,3-bisphosphoglycerate from 3-phosphoglycerate with phosphoglycerate kinase, but at 70 C, 1,3- bisphosphoglycerate was dephosphorylated rapidly to 3-phosphoglycerate, effectively turning the phosphoglycerate kinase into a futile cycle. At both temperatures it was possible to convert 3-phosphoglycerate to glyceraldehyde
...

Snapshots: No snapshots

Studies: BPG stability, PGK-30C, PGK-70C, PGK-GAPDH 30C & 70C

Assays: BPG degradation, BPG stability analysis, PGK - GAPDH models, PGK 30C data, PGK 30C model, PGK 70 data, PGK 70C model, PGK-GAPDH 30, PGK-GAPDH 70

Created: 27th Sep 2017 at 14:36

BPG stability

SulfoSys, SulfoSys - Biotec

All contributors

Jacky Snoep

Theresa Kouril

BPG produced with yeast PGK was incubated at 70 C,upon which BPG rapidly dephosphorylates to 3PG.
SED-ML:
https://jjj.bio.vu.nl/models/experiments/kouril2017_fig2b/simulate

Person responsible: Jacky Snoep

Snapshots: No snapshots

Investigation: Phosphoglycerate kinase acts as a futile cycle ...

Assays: BPG degradation, BPG stability analysis

Created: 28th Sep 2017 at 13:16, Last updated: 28th Sep 2017 at 15:00