EC 3 - Hydrolases
EC 3.6 - Acting on acid anhydrides
EC 3.6.3 - Acting on acid anhydrides; catalyzing transmembrane movement of substances
EC 3.6.3.29 - Molybdate-transporting ATPase
IntEnz view
ENZYME view
IntEnz Enzyme Nomenclature
EC 3.6.3.29
Names
Accepted name:
molybdate-transporting ATPase
Systematic name:
ATP phosphohydrolase (molybdate-importing)
Reaction
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22020 [IUBMB]+ATPName origin: UniProt - CHECKED (C)Formula: C10H12N5O13P3
Charge: -4ChEBI compound status: CHECKED (C)+H2OName origin: UniProt - CHECKED (C)Formula: H2O
Charge: 0ChEBI compound status: CHECKED (C)molybdateName origin: UniProt - CHECKED (C)Formula: MoO4
Charge: -2ChEBI compound status: CHECKED (C)OUT<?>+ADPName origin: UniProt - CHECKED (C)Formula: C10H12N5O10P2
Charge: -3ChEBI compound status: CHECKED (C)+H+Name origin: UniProt - CHECKED (C)Formula: H
Charge: 1ChEBI compound status: CHECKED (C)molybdateName origin: UniProt - CHECKED (C)Formula: MoO4
Charge: -2ChEBI compound status: CHECKED (C)IN+
Comments:
ABC-type (ATP-binding cassette-type) ATPase, characterised by the presence of two similar ATP-binding domains. Does not undergo phosphorylation during the transport process. A bacterial enzyme that imports molybdate anions.
Links to other databases
Protein domains and families:
PROSITE:PDOC00185
Gene Ontology:
GO:0015412
References
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Phylogenetic analyses of the ATP-binding constituents of bacterial extracytoplasmic receptor-dependent ABC-type nutrient uptake permeases.Res. Microbiol. 146: 271-278 (1995). [PMID: 7569321]
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Molybdate transport and regulation in bacteria.Arch. Microbiol. 168: 345-354 (1997). [PMID: 9325422]
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Molecular phylogeny as a basis for the classification of transport proteins from bacteria, archaea and eukarya.Adv. Microb. Physiol. 40: 81-136 (1998). [PMID: 9889977]
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The Transporter Factsbook, Academic Press, San Diego, 1998
[EC 3.6.3.29 created 2000]