Search results for 0030060

Showing 30 results out of 35

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Reaction (30 results from a total of 35)

Identifier: R-HSA-198508
Species: Homo sapiens
Compartment: cytosol
Cytosolic malate dehydrogenase catalyzes the reaction of malate and NAD+ to form oxaloacetate and NADH + H+ (Lo et al. 2005). The dimeric structure of the human dehydrogenase is inferred from that established for its well-studied pig homolog (Birktoft et al. 1989).
Identifier: R-HSA-71783
Species: Homo sapiens
Compartment: mitochondrial matrix
Mitochondrial malate dehydrogenase catalyzes the reversible reaction of oxaloacetate and NADH + H+ to form malate and NAD+ (Luo et al. 2006). Unpublished crystallographic data indicate that the protein is a dimer (PDB 3E04).
Identifier: R-HSA-70979
Species: Homo sapiens
Compartment: mitochondrial matrix
Mitochondrial malate dehydrogenase catalyzes the reversible reaction of malate and NAD+ to form oxaloacetate and NADH + H+ (Luo et al. 2006). This reaction is highly endergonic but is pulled in the direction annotated here when the TCA cycle is operating. Unpublished crystallographic data indicate that the protein is a dimer (PDB 3E04).
Identifier: R-CEL-198508
Species: Caenorhabditis elegans
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-DDI-198508
Species: Dictyostelium discoideum
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-SPO-70979
Species: Schizosaccharomyces pombe
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-SCE-70979
Species: Saccharomyces cerevisiae
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-CEL-70979
Species: Caenorhabditis elegans
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-SSC-70979
Species: Sus scrofa
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-BTA-70979
Species: Bos taurus
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-CFA-70979
Species: Canis familiaris
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-MMU-70979
Species: Mus musculus
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-RNO-70979
Species: Rattus norvegicus
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-GGA-70979
Species: Gallus gallus
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-XTR-70979
Species: Xenopus tropicalis
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-DRE-70979
Species: Danio rerio
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-DME-70979
Species: Drosophila melanogaster
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-ATH-70979
Species: Arabidopsis thaliana
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-OSA-70979
Species: Oryza sativa
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-TGU-70979
Species: Taeniopygia guttata
Compartment: mitochondrial matrix
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-SSC-198508
Species: Sus scrofa
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-BTA-198508
Species: Bos taurus
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-CFA-198508
Species: Canis familiaris
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-MMU-198508
Species: Mus musculus
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-RNO-198508
Species: Rattus norvegicus
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-GGA-198508
Species: Gallus gallus
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-TGU-198508
Species: Taeniopygia guttata
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-XTR-198508
Species: Xenopus tropicalis
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-DRE-198508
Species: Danio rerio
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.

Identifier: R-DME-198508
Species: Drosophila melanogaster
Compartment: cytosol
This event has been computationally inferred from an event that has been demonstrated in another species.

The inference is based on the homology mapping in Ensembl Compara. Briefly, reactions for which all involved PhysicalEntities (in input, output and catalyst) have a mapped orthologue/paralogue (for complexes at least 75% of components must have a mapping) are inferred to the other species. High level events are also inferred for these events to allow for easier navigation.

More details and caveats of the event inference in Reactome. For details on the Ensembl Compara system see also: Gene orthology/paralogy prediction method.