Molecular heterogeneity of myophosphorylase deficiency (Mcardle's disease): A genotype-phenotype correlation study

We report on 54 Spanish patients with McArdle's disease from 40 unrelated families. Molecular analysis revealed that the most common R49X mutation was present in 70% of patients and 55% of alleles. The G204S mutation was less frequent and found in 14.8% of patients and 9% of mutant alleles. The...

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Bibliographic Details
Published in:Annals of neurology 2001-11, Vol.50 (5), p.574-581
Main Authors: Martín, Miguel A., Rubio, Juan C., Buchbinder, Jenny, Fernández-Hojas, Roberto, Del Hoyo, Pilar, Teijeira, Susana, Gámez, Josep, Navarro, Carmen, Fernández, José M., Cabello, Ana, Campos, Yolanda, Cervera, Carlos, Culebras, José M., Andreu, Antoni L., Fletterick, Robert, Arenas, Joaquín
Format: Article
Language:English
Subjects:
Adolescent
Adult
Aged
Aged, 80 and over
Binding Sites - genetics
Biological and medical sciences
Carbohydrates (enzymatic deficiencies). Glycogenosis
Child
Errors of metabolism
Female
Genetic Testing
Genotype
Glycogen Phosphorylase, Muscle Form - deficiency
Glycogen Phosphorylase, Muscle Form - genetics
Glycogen Storage Disease Type V - enzymology
Glycogen Storage Disease Type V - epidemiology
Glycogen Storage Disease Type V - genetics
Heterozygote
Homozygote
Humans
Male
Medical sciences
Metabolic diseases
Middle Aged
Models, Molecular
Mutation
Phenotype
Polymerase Chain Reaction
Polymorphism, Restriction Fragment Length
Spain - epidemiology
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Summary:We report on 54 Spanish patients with McArdle's disease from 40 unrelated families. Molecular analysis revealed that the most common R49X mutation was present in 70% of patients and 55% of alleles. The G204S mutation was less frequent and found in 14.8% of patients and 9% of mutant alleles. The W797R mutation was observed in 16.5% of patients, accounting for 13.7% of mutant alleles. Moreover, 78% of mutant alleles among Spanish patients can be identified by using polymerase chain reaction‐restriction fragment length polymorphism analysis for the R49X, G204S, and W797R mutations, which makes noninvasive diagnosis possible through molecular genetic analysis of blood DNA. Six novel mutations were found. Three were missense mutations, E348K, R601W, and A703V; two nonsense mutations, E124X and Q754X; and one single base pair deletion, 533 delA. No clear genotype‐phenotype correlation emerges from our study. Most of the mutations of uncharged and solvent inaccessible residues and the truncations must disrupt the basic structure of the protein. The mutations of charged residues would be expected to interfere with internal hydrogen bonding networks, introducing severe incompatible partnering that is caused by poor packing or electrostatic repulsions.
ISSN:0364-5134
1531-8249
DOI:10.1002/ana.1225