The alpha-globin gene adjacent to the gene for HbQ-alpha 74 Asp replaced by His is deleted, but not that adjacent to the gene for HbG- alpha 30 Glu replaced by Gln; three-fourths of the alpha-globin genes are deleted in HbQ-alpha-thalassemia

Abstract Two Chinese patients with HbQ-alpha 2 74 Asp replaced by His beta 2- alpha-thalassemia, one HbQ-alpha 2 74 or 75 Asp replaced by His beta 2 carrier, and one HbG-alpha 2 30 Glu replaced by Gln beta 2 carrier were studied to determine the number of alpha-globin genes in their chromosomes. DNA was isolated from white blood cells and bone marrow cells and studied by liquid hybridization and by hybridization of DNA fragments obtained by restriction enzyme endonuclease digestion (Ecr to nitrocellulose filters. The liquid hybridization analysis showed that in HbQ-alpha 2 74 Asp replaced by His beta 2-alpha-thalassemia, as in HbH disease, only one-fourth of the usual number of alpha-globin genes is present. Hybridization patterns of DNA restriction enzyme fragments showed that in HbQ-alpha 2 74 Asp replaced by His beta 2-alpha- thalassemia one chromosome has both alpha-globin genes deleted and the other chromosome, which carries the alpha-mutant gene, has one alpha- globin gene deleted. Our results show that the HbQ-alpha 74 Asp replaced by His structural gene is located adjacent to a deleted alpha- globin gene, whereas the alpha-globin gene adjacent to HbG-alpha 30 Glu replaced by Gln gene is not deleted.</jats:p

The alpha-globin gene adjacent to the gene for HbQ-alpha 74 Asp replaced by His is deleted, but not that adjacent to the gene for HbG- alpha 30 Glu replaced by Gln; three-fourths of the alpha-globin genes are deleted in HbQ-alpha-thalassemia

Two Chinese patients with HbQ-alpha 2 74 Asp replaced by His beta 2- alpha-thalassemia, one HbQ-alpha 2 74 or 75 Asp replaced by His beta 2 carrier, and one HbG-alpha 2 30 Glu replaced by Gln beta 2 carrier were studied to determine the number of alpha-globin genes in their chromosomes. DNA was isolated from white blood cells and bone marrow cells and studied by liquid hybridization and by hybridization of DNA fragments obtained by restriction enzyme endonuclease digestion (Ecr to nitrocellulose filters. The liquid hybridization analysis showed that in HbQ-alpha 2 74 Asp replaced by His beta 2-alpha-thalassemia, as in HbH disease, only one-fourth of the usual number of alpha-globin genes is present. Hybridization patterns of DNA restriction enzyme fragments showed that in HbQ-alpha 2 74 Asp replaced by His beta 2-alpha- thalassemia one chromosome has both alpha-globin genes deleted and the other chromosome, which carries the alpha-mutant gene, has one alpha- globin gene deleted. Our results show that the HbQ-alpha 74 Asp replaced by His structural gene is located adjacent to a deleted alpha- globin gene, whereas the alpha-globin gene adjacent to HbG-alpha 30 Glu replaced by Gln gene is not deleted.</jats:p

Alpha globin gene number: population and restriction endonuclease studies

Restriction endonuclease analysis was used to test a proposed genetic model using alpha-globin gene number to account for the observed distributions of the proportions of hemoglobin (Hb) S in sickle cell trait. In a subsample of specimens collected during a population survey in India, these studies confirmed that the postulated genotype was present in 22 of the 23 individuals examined. In the study population, the number of alpha-globin genes explains about 90% of the variance in the proportion of HbS in sickle cell trait (r2 = 0.895, p less than 10(- 10)).</jats:p

Alpha globin gene number: population and restriction endonuclease studies

Abstract Restriction endonuclease analysis was used to test a proposed genetic model using alpha-globin gene number to account for the observed distributions of the proportions of hemoglobin (Hb) S in sickle cell trait. In a subsample of specimens collected during a population survey in India, these studies confirmed that the postulated genotype was present in 22 of the 23 individuals examined. In the study population, the number of alpha-globin genes explains about 90% of the variance in the proportion of HbS in sickle cell trait (r2 = 0.895, p less than 10(- 10)).</jats:p

Molecular basis of hemoglobin-H disease in the Mediterranean population

Abstract We investigated the molecular basis of hemoglobin-H disease by hybridization and restriction endonuclease mapping of the DNA in the Mediterranean populations. Of the 12 patients studied from Cyprus and Sardinia, 8 had the typical deletion defect with a single remaining alpha-globin gene. The nondeletion type of alpha-thalassemia was found in 3, and a “dysfunctional” gene in one. We conclude that the predominant cause of alpha-thalassemia in these populations is gene deletion.</jats:p

Molecular basis of hemoglobin-H disease in the Mediterranean population

We investigated the molecular basis of hemoglobin-H disease by hybridization and restriction endonuclease mapping of the DNA in the Mediterranean populations. Of the 12 patients studied from Cyprus and Sardinia, 8 had the typical deletion defect with a single remaining alpha-globin gene. The nondeletion type of alpha-thalassemia was found in 3, and a “dysfunctional” gene in one. We conclude that the predominant cause of alpha-thalassemia in these populations is gene deletion.</jats:p

Alpha-thalassemia in two Mediterranean populations

We used restriction endonuclease analysis to determine the incidence of alpha-thalassemia in two Mediterranean islands. In a random population sample, the gene frequency of deletion-type alpha-thalassemia-2 (- alpha) was 0.18 in Sardinians and 0.07 in Greek Cypriots. All cases were the rightward crossover type. From these frequencies and the known incidence of hemoglobin-H disease in these populations, we calculated the frequency of the alpha-thalassemia-1 genotype (--) and determined that it was low. We also found that beta-thalassemia homozygotes in sardinia have a higher incidence of alpha-thalassemia than normals and beta thalassemia heterozygotes because a significantly greater number of these homozygotes are also homozygous for the alpha-thalassemia-2 lesion. These findings support the theory that coinheritance of alpha- thalassemia mitigates the severity of beta-thalassemia and suggest that the protection is most pronounced when two alpha-globin genes are deleted.</jats:p