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(?) Enter a search word or phrase (left box), optionally select an appropriate field (middle), and hit the search button or press enter. This search engine is NOT case sensitive.

Use wild characters " ? " and " * " for efficient search:
  • ? : A single character. E.g., trehalose?phosphatase covers both trehalose phosphatase and trehalose-phosphatase, of which, only the latter fits the nomenclature used in this database.
  • * : Any number of characters. E.g.,tre-* brings all genes from trehalase family; coenzyme*A covers coenzyme A, coenzyme-A, and coenzymeA.
Network Biomass WormPaths
FBAFlux Balance Analysis PEAPathway Enrichment Analysis
Metabolite Overview
Abbreviation ..................................................... : gdpmann
Name ..................................................... : GDP-D-mannose, etc.GDP-mannose, GDP-alpha-D-mannose
Model ID ..................................................... : C00096
KEGG ID (?) Compounds in KEGG database that match this compound. ..................................................... : C00096
Formula ..................................................... : C16H23N5O16P2
Charge ..................................................... : -2
Localization ..................................................... : Cytosol
BiGG matches (?) Compounds in BiGG database that match this compound. ..................................................... : gdpmann
Other associations ..................................................... : See reaction table below (7 reactions in total)

In WormPaths (?) Pathway maps where this metabolite is represented are listed here.

Letters after map name indicate the compartments the metabolite is placed in the map:

(c) Cytosol
(m) Mitochondria
(e) Extracellular space
.....................................................
: Fructose and mannose metabolism (c), N-Glycan biosynthesis (c)
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ID Enzyme Reactants Products Genes (?) Multiple genes are separated by OR (I) or AND (&).

I indicates that genes are redundant within the group (e.g. paralogs encoding the same enzyme).
& indicates that genes are non-redundant within the group (e.g. genes encoding different subunits of the same enzyme).

If there are multiple groups of genes, as in an enzyme complex with some enzymes associated with multiple genes, or in a case where the same enzyme is associated with different orthology groups with paralogs, each group with multiple genes is shown in parentheses.
Pathway
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