A founder mutation in the GK1 gene is responsible for galactokinase deficiency in Roma (Gypsies)

L. Kalaydjieva, A. Perez-Lezaun, D. Angelicheva, S. Onengut, D. Dye, N.U. Bosshard, A. Jordanova, A. Savov, P. Yanakiev, I. Kremensky, B. Radeva, J. Hallmayer, A. Markov, V. Nedkova, I. Tournev, L. Aneva, R. Gitzelmann

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    67 Citations (Scopus)


    Galactokinase deficiency is an inborn error in the first step of galactose metabolism. Its major clinical manifestation is the development of cataracts in the first weeks of life. It has also been suggested that carriers of the deficiency are predisposed to presenile cataracts developing at age 20-50 years. Newborn screening data suggest that the gene frequency is very low worldwide but is higher among the Roma in Europe. Since the cloning of the galactokinase gene (GK1) in 1995, only two disease-causing mutations, both confined to single families, have been identified. Here we present the results of a study of six affected Romani families from Bulgaria, where index patients with galactokinase deficiency have been detected by the mass screening. Genetic linkage mapping placed the disease locus on 17q, and haplotype analysis revealed a small conserved region of homozygosity. Using radiation hybrid mapping, we have shown that GK1 is located in this region. The founder Romani mutation identified in this study is a single nucleotide substitution in GK1 resulting in the replacement of the conserved proline residue at amino acid position 28 with threonine (P28T). The P28T carrier rate in this endogamous population is similar to 5%, suggesting that the mutation may be an important cause of early childhood blindness in countries with a sizeable Roma minority.
    Original languageEnglish
    Pages (from-to)1299-1307
    JournalAmerican Journal of Human Genetics
    Issue number5
    Publication statusPublished - 1999


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