Tina C. Warren scite author profile

We have developed a simple and rapid nonradioactive method for detecting genetic variation and have applied it to the diagnosis of sickle cell anemia and beta-thalassemia. The procedure involves the selective amplification of a segment of the human beta-globin gene with oligonucleotide primers and a thermostable DNA polymerase, followed by hybridization of the amplified DNA with allele-specific oligonucleotide probes covalently labeled with horseradish peroxidase. The hybridized probes were detected with a simple colorimetric assay. We demonstrated the usefulness of this method in a retrospective analysis of two pregnancies at risk for beta-thalassemia and one at risk for sickle cell anemia, as well as in an analysis of nine DNA samples simulating three family sets.

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Molecular characterization of severe hemophilia A suggests that about half the mutations are not within the coding regions and splice junctions of the factor VIII gene.

Higuchi

Kazazian

Kasch

et al. 1991

Proc. Natl. Acad. Sci. U.S.A.

142

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Hemophilia A is an X chromosome-linked disorder resulting from deficiency of factor VIII, an important protein in blood coagulation. A large number of diseaseproducing mutations have been reported in the factor VIII gene. However, a comprehensive analysis of the mutations has been difficult because of the large gene size, its many scattered exons, and the high frequency of de novo mutations. Recently, we have shown that nearly all mutations resulting in mild-tomoderate hemophilia A can be detected by PCR and denaturing gradient gel electrophoresis (DGGE). In this study, we attempted to discover the mutations causing severe hemophilia A by analyzing 47 unselected patients, 30 of whom had severe hemophilia and 17 of whom had mild-to-moderate disease. Using DGGE as a screening method, we analyzed 99% of the coding region, 94% of the splice junctions, the promoter region, and the polyadenylylation site ofthe gene. We found the mutation in 16 of 17 (94%) patients with mild-to-moderate disease but in only 16 of 30 (53%) patients with severe hemophilla A. Since DGGE after computer analysis appears to detect all mutations in a given fagment, the lower-thanexpected yield of mutations in patients with severe disease is likely not due to failure of the detection method; it is probably due to the presence of mutations in DNA sequences outside the regions studied. Such sequences may include locus-controlling regions, other sequences within introns or outside the gene that are important for its expression, or another gene involved in factor VIII expression that is very closely linked to the factor VIII gene.

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Evolution of a genetic disease in an ethnic isolate: beta-thalassemia in the Jews of Kurdistan.

Rund

Cohen

Filon

et al. 1991

Proc. Natl. Acad. Sci. U.S.A.

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The molecular basis of β thalassaemia in Punjabi and Maharashtran Indians includes a multilocus aetiology involving triplicated α‐globin loci

et al. 1994

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We have analysed 201 beta-thalassaemia (beta-thal) genes from natives of the Punjab (156) and Maharashtra states of India and found the causative mutation in 200 of them. The most common beta-globin gene mutations differed significantly between these two groups and between these groups and Indian immigrants in the U.S.A. and the U.K. In the Punjabi Indians the IVS-1, nt 1 (G-T) mutation accounted for nearly one-quarter of beta-thal genes, whereas it was 5% or less in the other groups. Likewise, the cap + 1 mutation was much more prevalent in the Punjabis, whereas the nonsense codon 15 allele had a higher frequency in the Maharashtrans of the Bombay region. The common IVS-1, nt5 allele had a frequency of 60% of beta-thal genes in the Maharastrans, 35% in North American immigrants, and only 23% in the Punjabis. Two-thirds of all beta-thal genes in Punjab were found in the merchant caste (Khatri-Arora), whereas the menial caste (Shudra) was highly represented among those with beta-thal genes in Maharashtra. Two novel beta-globin alleles were each found once; a frameshift codon 55 (+A) in Maharashtrans and a frameshift codons 47-48 (+ATCT) in Punjabis. Of three Punjabi patients with beta-thal intermedia in whom only a single severe beta-globin gene mutation was found, two had six alpha-globin genes (homozygosity for a triplicated alpha-globin locus) instead of the normal alpha-globin gene number of four. Thus, these two individuals had a multilocus aetiology of beta-thal and their parents have the unusual recurrence risk of 1 in 8 for conceiving a third with beta-thal intermedia. Since 15% of 126 alpha-globin clusters studies in Punjabis contained either single (10%) or triplicated (5%) alpha-globin genes, the alpha-globin gene number is a frequent modifier of the phenotype of beta-thal in this ethnic group.

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Tina C. Warren

Diagnosis of Sickle Cell Anemia and β-Thalassemia with Enzymatically Amplified DNA and Nonradioactive Allele-Specific Oligonucleotide Probes

Molecular characterization of severe hemophilia A suggests that about half the mutations are not within the coding regions and splice junctions of the factor VIII gene.

Evolution of a genetic disease in an ethnic isolate: beta-thalassemia in the Jews of Kurdistan.

The molecular basis of β thalassaemia in Punjabi and Maharashtran Indians includes a multilocus aetiology involving triplicated α‐globin loci

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