Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Methylmalonic acidemia (MMA) can be caused by mutations in the gene coding for the methylmalonyl CoA mutase (MCM) apoenzyme or by mutations in genes required for provision of its adenosylcobalamin cofactor. We have characterized MCM activity, gene structure, and expression in a series of primary fibroblast cell lines derived from patients with MCM apoenzyme deficiency. Southern blot analysis reveals normal HindIII and TaqI polymorphisms but no gross insertions, deletions, rearrangements, or point mutations at restriction endonuclease recognition sequences. Northern blot analysis demonstrates that several cell lines have specifically decreased steady-state levels of MCM mRNA. At least six independent alleles can be delineated by a haplotype of HindIII and TaqI polymorphisms, the level of mRNA expression, and the biochemical phenotype of the cells. These studies confirm the wide phenotypic spectrum of MMA and provide molecular genetic evidence for a variety of independent alleles underlying this disorder.
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PMID:Heterogeneous alleles and expression of methylmalonyl CoA mutase in mut methylmalonic acidemia. 196 6

L-methylmalonyl-CoA mutase (MCM; E.C. 5,4,99,2) is the apoenzyme for catalyzing the isomerization of L-methylmalonyl-CoA to succinyl-CoA. Genetic deficiency of MCM leads to the accumulation of precursors and abnormal metabolites of L-methylmalonyl-CoA. This can be associated with fulminant metabolic acidosis, widespread secondary aberrations in systemic metabolic homeostasis, mental retardation, or even neonatal death. This disorder is termed methylmalonic acidemia (MMA). This report, describes the use of an authentic, full-length cloned human cDNA probe, MCM26, kindly provided by Dr. Fred Ledley, for Southern blot analysis of genomic DNA. The pattern of EcoRI, Sac I and Hind III restriction endonuclease sites is reported from 14 unrelated control individuals of Chinese background. A Southern blot by EcoRI to the MCM26b probe reveals invariant bands of 4.1, 3.8, and 2.2 kb respectively. By EcoRI to the MCM26c probe, 7.2 kb is invariant. By HindIII to the MCM26c probe, invariant bands are 4.8 and 2.7 kb respectively. By SacI to the MCMb probe, invariant bands are 17, 8.0, 6.0, 3.6 and 1.8 kb respectively, while the polymorphic band is at 5.6kb. When combined with more diverse samples and additional polymorphisms, this restriction fragment length polymorphism may be useful for genetic diagnostic and linkage studies of MCM in MMA.
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PMID:Restriction fragment length polymorphisms at the methylmalonyl CoA mutase locus in normal Chinese. 197 11

Mutations in the MMAA gene on human chromosome 4q31.21 result in vitamin B12-responsive methylmalonic aciduria (cblA complementation group) due to deficiency in the synthesis of adenosylcobalamin. Genomic DNA from 37 cblA patients, diagnosed on the basis of cellular adenosylcobalamin synthesis, methylmalonyl-coenzyme A (CoA) mutase function, and complementation analysis, was analyzed for deleterious mutations in the MMAA gene by DNA sequencing of exons and flanking sequences. A total of 18 novel mutations were identified, bringing the total number of mutations identified in 37 cblA patients to 22. A total of 13 mutations result in premature stop codons; three are splice site defects; and six are missense mutations that occur at highly conserved residues. Eight of these mutations were common to two or more individuals. One mutation, c.433C>T (R145X), represents 43% of pathogenic alleles and a common haplotype was identified. Restriction endonuclease or heteroduplex diagnostic tests were designed to confirm mutations. None of the sequence changes identified in cblA patients were found in 100 alleles from unrelated control individuals.
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PMID:Mutations in the MMAA gene in patients with the cblA disorder of vitamin B12 metabolism. 1552 52