Methionine synthase reductase (MSR) deficiency is an autosomal recessive disorder of folate/cobalamin metabolism leading to hyperhomocysteinemia, hypo- methioninemia and megaloblastic anemia. Deficiency in MSR activity occurs as the result of a defect in the MSR enzyme, which is required for the reductive activation of methionine synthase (MS). MS itself is responsible for the folate/cobalamin-dependent conversion of homo- cysteine to methionine. We have recently cloned the cDNA corresponding to the MSR protein, a novel member of the ferredoxin-NADP(+)reductase (FNR) family of electron transferases. We have used RT-PCR, heteroduplex, single-strand conformation poly- morphism (SSCP) and DNA sequence analyses to reveal 11 mutations in eight patients from seven families belonging to the cblE complementation group of patients of cobalamin metabolism that is defective in the MSR protein. The mutations include splicing defects leading to large insertions or deletions, as well as a number of smaller deletions and point mutations. Apart from an intronic substitution found in two unrelated patients, the mutations appear singular among individuals. Of the eleven, three are nonsense mutations, allowing for the identification of two patients for whom little if any MSR protein should be produced. The remaining eight involve point mutations or in-frame disruptions of the coding sequence and are distributed throughout the coding region, including proposed FMN, FAD and NADPH binding sites. These data demonstrate a unique requirement for MSR in the reductive activation of MS.
Pubmed ID: 10484769 RIS Download
Mesh terms: 5-Methyltetrahydrofolate-Homocysteine S-Methyltransferase | Anemia, Megaloblastic | DNA Mutational Analysis | DNA, Complementary | Enzyme Activation | Ferredoxin-NADP Reductase | Folic Acid | Genes, Recessive | Genetic Complementation Test | Heteroduplex Analysis | Homocysteine | Humans | Hyperhomocysteinemia | Methionine | Mutation | Polymorphism, Single-Stranded Conformational | RNA Splicing | Reverse Transcriptase Polymerase Chain Reaction | Sequence Analysis, DNA | Vitamin B 12
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