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From Wikipedia, the free encyclopedia
Molybdopterin synthase (EC 2.8.1.12, MPT synthase) is an enzyme required to synthesize molybdopterin (MPT) from precursor Z (now known as cyclic pyranopterin monophosphate).[1][2] Molydopterin is subsequently complexed with molybdenum to form molybdenum cofactor (MoCo). MPT synthase catalyses the following chemical reaction:
Molybdopterin synthase | |||||||||
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Identifiers | |||||||||
EC no. | 2.8.1.12 | ||||||||
Databases | |||||||||
IntEnz | IntEnz view | ||||||||
BRENDA | BRENDA entry | ||||||||
ExPASy | NiceZyme view | ||||||||
KEGG | KEGG entry | ||||||||
MetaCyc | metabolic pathway | ||||||||
PRIAM | profile | ||||||||
PDB structures | RCSB PDB PDBe PDBsum | ||||||||
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Molybdopterin synthase is heterodimeric and coded for by the MOCS2 gene.[3] Genetic deficiencies of enzymes such as MPT synthase, which are involved in MoCo biosynthesis, lead to MoCo deficiency, a rare disease that results in severe neurological abnormalities.[4][5][6][7]
The high resolution crystal structure of MPT synthase shows the enzyme has a heterotetrametric structure composed of two small subunits (MoaD in prokaryotes) and two large subunits (MoaE in prokaryotes) with the small subunits at opposite ends of a central large subunit dimer.[1][4][5] The C-terminus of each small subunit is inserted into a large subunit to form the active site.[4] In the enzyme's activated form the C-terminus is present as a thiocarboxylate, which acts as the sulfur donor to precursor Z in MoCo biosynthesis.[4] As a result, the active site of the enzyme must be in close proximity to the C-terminus of the small subunit (i.e. MoaD in prokaryotes). The high resolution crystal structure of the enzyme also reveals the presence of a binding pocket for the terminal phosphate of molybdopterin and suggests a possible binding site for the pterin moiety present both in precursor Z and molybdopterin.[8]
The structural similarity between ubiquitin and the small subunit of MPT synthase hints at the evolutionary relationship of the MoCo biosynthesis pathway and the ubiquitin dependent protein degradation pathway.[4][9] Specifically, the small subunit MoaD in prokaryotes is a sequence homolog of Urm1, indicating that MPT synthase probably shares a common ancestor with ubiquitin.[9]
The biosynthesis of MoCo is an old and evolutionary conserved pathway present in eukaryotes, eubacteria, and archea, which can be divided into three major steps.[4] The first step involves the conversion of a guanosine nucleotide into precursor Z.[4][10] In the following step, MPT synthase catalyzes the incorporation of the dithiolene moiety to precursor Z, which converts it to molybdopterin.[4] More specifically, this interconversion involves the opening of the cyclic phosphate ring of precursor Z, and the addition of two side chain sulfhydryl groups.[10] E-coli MPT synthase is activated by the formation of a thiocarboxylate group at the second glycine of its C-terminal Gly-Gly motif, which serves as the sulfur donor for the formation of the diothiolene group in MPT.[5][11] That is, the mechanism on MPT synthase depends on the interconversion between the activated form of MoaD with the thiocarboxylate group and the MoaE protein[8] In the final step of MoCo biosynthesis, molybendum is incorporated to MPT by the two-domain protein gephyrin.[5][6] MPT synthase sulfurylase recharges MPT synthase with a sulfur atom after each catalytic cycle.[9]
MPT synthase is involved in the biosynthesis of MoCo, which is essential for the activity of enzymes like xanthine dehydrogenase, aldehyde oxidase, and sulfite oxidase in humans.[5] MoCo containing enzymes typically catalyze the net transfer of an oxygen atom to and from their substrates in a two electron redox reaction.[4]
MoCo deficiency in humans results in the combined deficiency of the MoCo-containing enzymes: sulfite oxidase, xanthine oxidase, and aldehyde oxidase.[4][5][7] Symptoms of MoCo deficiency are linked to the accumulation of toxic metabolites caused by the reduced activity of these molybdoenzymes, especially sulfite oxidase.[4] Genetic defects in MoCo biosynthesis lead to MoCo deficiency.[4] These genetic defects affect the formation of precursor Z (known as group A MoCo deficiency) or the conversion of precursor Z to MoCo by MPT synthase (known as group B MoCo deficiency).[7][12] MOCS1 is defective for group A (the majority of patients), and encodes two enzymes involved in the formation of precursor Z.[7][12] MOCS2 is defective for group B and encodes the small and large subunits of MPT synthase.[7][12] Groups A and B of deficiency show an identical phenotype, characterized by neonatal seizures, attenuated brain growth, dislocated ocular lenses, feeding difficulties, among other neurological symptoms.[4][5][6][7][12] This rare but severe deficiency is an autosomal recessive trait, which usually results in early childhood death as there is currently no available treatment.[4][5][6][7]
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