N Zisovski scite author profile

N Zisovski

5Publications

48Citation Statements Received

39Citation Statements Given

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Affiliations

Children's Clinical University Hospital, Saints Cyril and Methodius University of Skopje

Publications

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γ‐mRNA and Hb F levels in β‐thalassaemia

Efremov¹,

Dimovski²,

Sukarova³

et al. 1994

Br J Haematol

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The Hb F levels in beta-thalassaemia can be affected by factors both linked and unlinked to the beta-globin gene cluster. We have recently analysed a group of patients with a homozygosity for the IVS-I-6 (T-->C) mutation, showing a wide variation in Hb F levels (2-47%) which could not be accounted for by any sequence variation within regulatory elements of the beta-globin gene cluster. In order to further investigate factors underlying this phenotypic difference we have developed a competitive reverse transcription/polymerase chain reaction procedure and used this method to determine the relative amounts of gamma- and beta-mRNAs in 10 patients with the IVS-I-6 homozygosity and 15 heterozygous parents, two IVS-I-6/delta beta-thalassaemia compound heterozygotes, five homozygotes for the beta(+) IVS-I-110 (G-->A) mutation, and in two with a homozygosity for the beta(0) codon 39 (C-->T) mutation. Three heterozygotes were also included. The percentages of gamma/(gamma(+) beta) mRNA were 10-73% in the IVS-I-6 homozygotes and < 2% to 10% in their heterozygous parents. A direct relationship existed between the level of mRNA and the % Hb F. However, the relative gamma-mRNA levels in the IVS-I-6 homozygotes were higher than their Hb F levels, indicating a possible competition between the gamma and beta transcripts for translational factors with a less efficient initiation of protein synthesis on the gamma-mRNA or a preferential survival of cells with mainly beta-globin gene expression at the post-reticulocyte stage. The gamma-mRNA levels in the two IVS-I-6/delta beta-thalassaemia compound heterozygotes were 71% and 62%, similar to their Hb F levels (63% and 59%), and averaged 82% (range 65-91%) in the five IVS-I-110 homozygotes, and 97.5% in the two codon 39 homozygotes. The correlation between these values and the % Hb F could not be evaluated because of the transfusion regimens; however, the levels of gamma-mRNA were as expected for patients with these beta-thalassaemia alleles.

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β-Thalassemia in Yugoslavia

et al. 1990

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This study concerned the evaluation of beta-thalassemia alleles in nearly 50 patients with beta-thalassemia major and in 130 -thalassemia heterozygotes using gene amplification and dot-blot hybridization with synthetic probes. Fourteen different mutations were observed; of these, three (IVS-I-110; IVS-I-6; IVS-I-1) account for some 75% of all beta-thalassemia alleles. Newly discovered variants, i.e. T----C in the initiation codon and AATAAA----AATGAA in the poly A site were observed in a few patients. The poly A mutation with classical beta-thalassemia alleles result in thalassemia intermedia. Hb Lepore is a rather common abnormality and combinations of this variant with beta-thalassemia often result in severe disease; a search for beta-thalassemia mutations among patients affected with this disease should include an analysis to detect this hemoglobin abnormality.

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Variation in clinical severity among patients with Hb Lepore‐Boston‐β‐thalassaemia is related to the type of β‐thalassaemia

Efremov

Ефремов²,

Zisovski³

et al. 1988

Br J Haematol

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Clinical and haematological observations, made for 10 Yugoslavian patients with the Hb Lepore-beta-thalassaemia condition, suggested a considerable variation from severe disease and complete blood transfusion dependency to a moderate, compensated, anaemia without major complications and without a need for regular blood transfusions. As the type of Hb Lepore was the same in all patients (Lepore-Boston-Washington) and an alpha-globin gene deficiency was absent, it was concluded that the type of beta-thalassaemia determined the severity of the disease. Six patients with severe disease had one of the following three beta-thalassaemia determinants: IVS-1 position 110 G----A, exon 2 codon 39 C----T, and IVS-1 position 1 G----A, while the three patients with mild disease had the Portuguese type of thalassaemia which is caused by the T----C substitution at position 6 of the IVS-1. In one patient with severe disease the beta-thalassaemia determinant remained unknown. Our observations are consistent with those made for thalassaemia patients with a homozygosity for these determinants.

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Three novel point mutations causing haemophilia A

Sukarova-Stefanovska¹,

Zisovski²,

Muratovska³

et al. 2002

Haemophilia

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Haemophilia A is an X-linked bleeding disorder caused by mutations in the factor VIII gene. In our efforts to elucidate molecular defects in the haemophilia A patients from the Republic of Macedonia, we employed nonradioactive single-strand conformation polymorphism analysis followed by direct sequencing, for identifying point mutations in the factor VIII gene. In the present study we report the detection of three novel missense mutations: Met19 --> Arg; Ala78 --> Pro and Cys2174 --> Gly, all causing haemophilia A.

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Sickle Cell Anemia in an Albanian Family in Yugoslavia

Zisovski¹,

Mladenovski²,

Muratovska³

et al. 1987

Hemoglobin

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N Zisovski

γ‐mRNA and Hb F levels in β‐thalassaemia

β-Thalassemia in Yugoslavia

Variation in clinical severity among patients with Hb Lepore‐Boston‐β‐thalassaemia is related to the type of β‐thalassaemia

Three novel point mutations causing haemophilia A

Sickle Cell Anemia in an Albanian Family in Yugoslavia

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