Mutations in the R-type pyruvate kinase gene and altered enzyme kinetic properties in patients with hemolytic anemia due to pyruvate kinase deficiency |
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Authors: | M Lakomek P Huppke B Neubauer A Pekrun H Winkler W Schröter |
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Institution: | (1) Universitäts-Kinderklinik, Robert-Koch-Strasse 40, D-37075 Göttingen, Germany;(2) Max-Planck-Institut für Biophys. Chemie, Göttingen, Germany |
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Abstract: | Summary The biochemical properties of erythrocyte pyruvate kinase (PK) together with mutations found in the coding sequence of the R-PK gene in five patients with severe hemolytic anemia due to PK deficiency are described. The enzyme variants were designated PK Mosul (homozygote), PK Bukarest1,2, PK Hamburg1, PK Köln1, and PK Essen (compound heterozygote). PK Mosul showed normal positive cooperative substrate binding, PK Bukarest1,2 exhibited noncooperative behavior, and PK Hamburg1 and PK Köln1 displayed mixed cooperativity, whereas PK Essen was negative cooperative. PK Mosul was found to be homozygous for the mutation 1151 ACG to ATG, resulting in an amino acid substitution 384 Thr to Met. In one allele of PK Bukarest1,2 a single nucleotide substitution GAG-TAG was found at nucleotide 721, causing a change of 241 Glu to a chain termination codon (PK Bukarest1). Additionally, in the second allele of this patient a point mutation at position 1594 (CGG-TGG) occurs, changing 532 Arg to Trp (PK Bukarest2). Direct sequencing showed the heterozygosity of the patient's mother (PK Bukarest1/normal) at position 721 and of the patient's father (PK Bukarest2 /normal) at position 1594. A point mutation at position 1529 (CGA-CAA), causing an amino acid substitution 510 Arg-Gln, was identified in PK Hamburg1 and PK Köln1. The second mutation in these variants was not detected. In PK Essen no mutation in the coding sequence was found at all. Screening for the mutation at position 1529 in further compound heterozygote patients and in normal subjects of Western European origin showed that this exchange is a common mutation responsible for PK deficiency in this population.Supported by theDeutsche Forschungsgemeinschaft, Grants no. La 527/1 and Ne 416/1. |
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Keywords: | Pyruvate kinase deficiency Homozygosity Compound heterozygosity Enzyme cooperativity Nucleotide sequencing Point mutations |
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