Molybdenum cofactor biosynthesis protein A
InterPro Protein Domain record
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description
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<p>The majority of molybdenum-containing enzymes utilise a molybdenum cofactor (MoCF or Moco) consisting of a Mo atom coordinated via a cis-dithiolene moiety to molybdopterin (MPT). MoCF is ubiquitous in nature, and the pathway for MoCF biosynthesis is conserved in all three domains of life. MoCF-containing enzymes function as oxidoreductases in carbon, nitrogen, and sulphur metabolism [<cite idref="PUB00034759"/>, <cite idref="PUB00034757"/>]. </p> <p>In <taxon tax_id="562">Escherichia coli</taxon>, biosynthesis of MoCF is a three stage process. It begins with the MoaA and MoaC conversion of GTP to the meta-stable pterin intermediate precursor Z. The second stage involves MPT synthase (MoaD and MoaE), which converts precursor Z to MPT; MoeB is involved in the recycling of MPT synthase. The final step in MoCF synthesis is the attachment of mononuclear Mo to MPT, a process that requires MoeA and which is enhanced by MogA in an Mg2 ATP-dependent manner [<cite idref="PUB00034758"/>]. MoCF is the active co-factor in eukaryotic and some prokaryotic molybdo-enzymes, but the majority of bacterial enzymes requiring MoCF, need a modification of MTP for it to be active; MobA is involved in the attachment of a nucleotide monophosphate to MPT resulting in the MGD co-factor, the active co-factor for most prokaryotic molybdo-enzymes. Bacterial two-hybrid studies have revealed the close interactions between MoeA, MogA, and MobA in the synthesis of MoCF [<cite idref="PUB00015635"/>]. Moreover the close functional association of MoeA and MogA in the synthesis of MoCF is supported by fact that the known eukaryotic homologues to MoeA and MogA exist as fusion proteins: CNX1 (<db_xref db="SWISSPROT" dbkey="Q39054"/>) of <taxon tax_id="3702">Arabidopsis thaliana</taxon> (Mouse-ear cress), mammalian Gephryin (e.g. <db_xref db="SWISSPROT" dbkey="Q9NQX3"/>) and <taxon tax_id="7227">Drosophila melanogaster</taxon> (Fruit fly) Cinnamon (<db_xref db="SWISSPROT" dbkey="P39205"/>) [<cite idref="PUB00015921"/>].</p><p>This entry represents the bacterial form of MoaA (molybdenum cofactor biosynthesis protein A). The MoaA protein is a member of the wider S-adenosylmethionine(SAM)-dependent enzyme family which catalyze the formation of protein and/or substrate radicals by reductive cleavage of SAM via a [4Fe-4S] cluster. Monomeric and homodimeric forms of MoaA have been observed <i>in vivo</i>, and it is not clear what the physiologically relevant form of the enzyme is [<cite idref="PUB00015124"/>]. The core of each monomer consists of an incomplete TIM barrel, formed by the N-terminal region of the protein, containing a [4Fe-4S] cluster. The C-terminal region of the protein, which also contains a [4Fe-4S] cluster consists of a beta-sheet covering the lateral opening of the barrel, an extended loop and three alpha helices. The N-terminal [4Fe-4S] cluster is coordinated with 3 cysteines and an exchangeable SAM molecule, while the C-terminal [4Fe-4S], also coordinated with 3 cysteines, is the binding and activation site for GTP [<cite idref="PUB00036007"/>].</p>
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Molybdenum cofactor biosynthesis protein A
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signatures_SMART
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Os_RAPDB_Locus
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