# Biological problem addressed 'Model Analysis Type'

Model Analysis Type

Cell Cycle (0) | Enzymology (0) | Gene Expression (0) | Gene Regulatory Network (0) | Genome Scale (0) | Metabolic Network (1) | Metabolic Redesign (0) | Metabolism (3) | Post Translational Modification (0) | Signal Induction (0) | Stress Response (0) | Translation (0) | Materials Science (0)

## Related assays

**12**Assays visible to you, out of a total of

**23**

Find some moths

**Submitter**: Guest

**Biological problem addressed**: Model Analysis Type

**Investigation:** The moth investigation

**Study:** The moth study

Glycolysis in Saccharomyces cerevisiae

**Submitter**: Guest

**Biological problem addressed**: Metabolism

**Investigation:** Growth control of the eukaryote cell: a systems...

Detailed glycolytic model in Lactococcus lactis

**Submitter**: Katy Wolstencroft

**Biological problem addressed**: Metabolic Network

**Investigation:** Glycolitic Flux in Lactococcus lactis

A kinetic model of the glycerol synthesis pathway has been constructed. Kinetic parameters were collected from published values. Maximal enzyme activities and intracellular effector concentrations were determined experimentally.

**Submitter**: Katy Wolstencroft

**Biological problem addressed**: Metabolism

**Investigation:** Glycerol Synthesis in Saccharomyces cerevisiae

**Study:** Glycerol Synthesis Pathway

The temperature dependent degradation of DHAP and GAP is modelled as an exponential decay process using experimental data for the disintegration at 70C.

**Submitter**: Jacky Snoep

**Biological problem addressed**: Metabolism

**Investigation:** Central Carbon Metabolism of Sulfolobus solfata...

**Study:** Model gluconeogenesis

Mathematical model for FBPAase kinetics, saturation of GAP and DHAP

**Submitter**: Jacky Snoep

**Biological problem addressed**: Model Analysis Type

**Investigation:** Central Carbon Metabolism of Sulfolobus solfata...

**Study:** Model gluconeogenesis

Mathematical model for PGK kinetics, saturation with ADP, ATP, 3PG and BPG.

**Submitter**: Jacky Snoep

**Biological problem addressed**: Model Analysis Type

**Investigation:** Central Carbon Metabolism of Sulfolobus solfata...

**Study:** Model gluconeogenesis

Mathematical model for GAPDH kinetics, saturation of GAP, BPG, NADP, NADPH and Pi.

**Submitter**: Jacky Snoep

**Biological problem addressed**: Model Analysis Type

**Investigation:** Central Carbon Metabolism of Sulfolobus solfata...

**Study:** Model gluconeogenesis

Mathematical model for TPI kinetics, saturation of GAP and DHAP.

**Submitter**: Jacky Snoep

**Biological problem addressed**: Model Analysis Type

**Investigation:** Central Carbon Metabolism of Sulfolobus solfata...

**Study:** Model gluconeogenesis

Mathematical model for the analysis of carbon loss of BPG, GAP and DHAP in reconstituted system of S. solfataricus at 70C.

**Submitter**: Jacky Snoep

**Biological problem addressed**: Model Analysis Type

**Investigation:** Central Carbon Metabolism of Sulfolobus solfata...

**Study:** Model gluconeogenesis

Mathematical model for the reconstituted system with PGK, GAPDH, TPI and FBPAase.

**Submitter**: Jacky Snoep

**Biological problem addressed**: Model Analysis Type

**Investigation:** Central Carbon Metabolism of Sulfolobus solfata...

**Study:** Carbon loss at high T

Varying the relative amounts of PGK and FBPAase and analyse the 3PG uptake and F6P production rates.

**Submitter**: Jacky Snoep

**Biological problem addressed**: Model Analysis Type

**Investigation:** Central Carbon Metabolism of Sulfolobus solfata...

**Study:** Pathway optimisation