I. Zohoun scite author profile

Patients with sickle cell anemia vary in the hematologic and clinical features of their disease, in part because of variability in the presence of linked and unlinked genes that modify the expression of the disease. The hemoglobin S gene is strongly linked to three different haplotypes of polymorphic endonuclease-restriction sites of the beta-like gene cluster (genes in the vicinity of the beta-globin gene)--one prevalent in Atlantic West Africa, another in central West Africa, and yet another in Bantu-speaking Africa (equatorial, East, and southern Africa). We have studied the differences in the hematologic characteristics of patients with sickle cell anemia from the first two geographical areas. We find that the Senegalese (Atlantic West Africa) patients have higher levels of hemoglobin F, a preponderance of G gamma chains in hemoglobin F, a lower proportion of very dense red cells, and a lower percentage of irreversibly sickled cells than those from Benin (central West Africa). We interpret these data to mean that the gamma-chain composition and the hemoglobin F level are haplotype linked and that the decrease in the percentage of dense cells and irreversibly sickled cells is secondary to the elevation in the hemoglobin F level. Patients with sickle cell anemia in the New World probably correspond to various combinations of these types, in addition to the still hematologically undefined haplotype associated with sickle cell anemia in the Bantu-speaking areas of Africa.

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Seroepidemiology of Human T-Cell Lymphotropic Virus Type I/II in Benin (West Africa)

Dumas¹,

Houinato²,

Verdier³

et al. 1991

AIDS Research and Human Retroviruses

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In 1988-1989, a national survey was conducted in Benin to determine the distribution of HTLV-I infection in a representative sample of adult individuals. This study comprised 2625 healthy subjects recruited in the six provinces of Benin and 1300 blood donors from Cotonou and from the other five provinces. Sera were screened for HTLV-I antibody by both immunofluorescence (IF) and enzyme immunoassay (EIA). Sera positive or doubtful by at least one technique were further analyzed by Western blot and radioimmunoprecipitation assay (RIPA) when indeterminate. Samples were considered as positive if they reacted with two gene products. No blood donor was positive. Over the 2625 subjects, 39 (1.5%) were positive. We observed a statistical difference between male and female (1%, 2%, p less than 0.05). A difference was also observed according to the areas studied: the HTLV-I antibody rate increased from coastal (0.3%) to northern (5.4%) provinces. HTLV-I seroprevalence increased significantly with age. This survey shows that HTLV-I infection exists in Benin but varies according to regions.

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Epidemiological studies of spectrin mutations related to hereditary elliptocytosis and spectrin polymorphisms in Benin

et al. 1996

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We studied an African population in Benin and discovered an unexpectedly high frequency (1.6%) of hereditary elliptocytosis (HE) among the 1447 subjects studied. In approximately two-thirds of HE individuals we identified molecular defects, primarily those in erythrocyte alpha-spectrin (dupL154, L260P and L207P mutations), as well as a novel mutation of erythrocyte beta-spectrin (beta-W2061R mutation). We also identified the genetic basis of a previously identified protein polymorphism of the alpha III domain of spectrin (R1331I mutation). The genetic background of HE in the African population was studied using a number of polymorphisms of the alpha-spectrin gene, including the alpha III domain polymorphism. These studies suggest that the HE mutations appear to have originated from separate genetic backgrounds in this population.

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Prevalence of iron deficiency and iron-deficiency anaemia in Benin

Herçberg

Chauliac²,

Galán

et al. 1988

Public Health

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Nucleotide sequence evidence of the unicentric origin of the ?C mutation in Africa

et al. 1991

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The origin of the beta C mutation was studied by characterizing nucleotide sequence polymorphisms on beta C chromosomes of patients from various African countries. In the majority of cases, the beta C mutation was found in linkage disequilibrium with a single chromosomal structure as defined by classical RFLP haplotypes, intergenic nucleotide sequence polymorphisms immediately upstream of the beta-globin gene, and intragenic beta-globin gene polymorphisms (frameworks). In addition, three atypical variant chromosomes carrying the beta C mutation were observed, and are most probably explained either by a meiotic recombination (two cases) or by one nucleotide substitution occurring in an unstable array of tandemly repeated sequences (one case). These data demonstrate the unicentric origin of the beta C mutation in central West Africa, with subsequent mutational modification in a small number of instances. The data also supports gene flow of the beta C chromosome from subsaharan Africa to North Africa.

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I. Zohoun

Hematologically and Genetically Distinct Forms of Sickle Cell Anemia in Africa

Seroepidemiology of Human T-Cell Lymphotropic Virus Type I/II in Benin (West Africa)

Epidemiological studies of spectrin mutations related to hereditary elliptocytosis and spectrin polymorphisms in Benin

Prevalence of iron deficiency and iron-deficiency anaemia in Benin

Nucleotide sequence evidence of the unicentric origin of the ?C mutation in Africa

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