Both siblings have high residual glutaryl-CoA dehydrogenase activity, and are compound heterozygotes for two mutations - R227P and V400M reported to be disease-causing in patients with glutaric aciduria type I.
We report the allele frequencies for three known GA-I LE GCDH variants (M405V, V400M and R227P) and note that both the M405V and V400M variants are significantly more common in the population of African ancestry compared to the general population.
Both siblings have high residual glutaryl-CoA dehydrogenase activity, and are compound heterozygotes for two mutations - R227P and V400M reported to be disease-causing in patients with glutaric aciduria type I.
To contribute to a better molecular understanding of GA-I we undertook a detailed molecular study on two GCDH disease-related variants, GCDH-p.Arg227Pro and GCDH-p.Val400Met.
Gene structure and mutations of glutaryl-coenzyme A dehydrogenase: impaired association of enzyme subunits that is due to an A421V substitution causes glutaric acidemia type I in the Amish.
The sibling with GA1 was homozygous whilst his siblings with D-2-HGA were heterozygous for a 1283 C>T missense mutation (T416I) in exon 11 of the GCDH gene.
Two novel mutations, p.Glu64Asp and p.Gly268Val, account for the majority of disease alleles (76.5%) in Cypriot patients with Glutaric aciduria type I.
We report the allele frequencies for three known GA-I LE GCDH variants (M405V, V400M and R227P) and note that both the M405V and V400M variants are significantly more common in the population of African ancestry compared to the general population.
Two novel mutations, p.Glu64Asp and p.Gly268Val, account for the majority of disease alleles (76.5%) in Cypriot patients with Glutaric aciduria type I.
The sibling with GA1 was homozygous whilst his siblings with D-2-HGA were heterozygous for a 1283 C>T missense mutation (T416I) in exon 11 of the GCDH gene.
We report the allele frequencies for three known GA-I LE GCDH variants (M405V, V400M and R227P) and note that both the M405V and V400M variants are significantly more common in the population of African ancestry compared to the general population.
Compound heterozygosity in the glutaryl-CoA dehydrogenase gene with R227P mutation in one allele is associated with no or very low free glutarate excretion.
Gene structure and mutations of glutaryl-coenzyme A dehydrogenase: impaired association of enzyme subunits that is due to an A421V substitution causes glutaric acidemia type I in the Amish.
Both siblings have high residual glutaryl-CoA dehydrogenase activity, and are compound heterozygotes for two mutations - R227P and V400M reported to be disease-causing in patients with glutaric aciduria type I.