Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0039730 (thalassemia)
10,305 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The silent Hb Muscat with a Leu----Val replacement at position beta 32 was discovered by reversed phase high performance liquid chromatography in two members of an Arabian family from Oman; in one person Hb Muscat occurred with Hb S and in the other with Hb A. Hb Muscat is slightly unstable but its presence has no apparent adverse effect on the health of its carriers. Additional hemoglobin abnormalities observed in this family were a common alpha-thalassemia-2 (-3.7 kb) and Hb S. The beta S haplotypes in the heterozygous carriers and the two sickle cell anemia patients were #19 (Benin) and #20 (Bantu); the latter likely originated from an East African population.
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PMID:A new variant, HB Muscat [alpha 2 beta (2)32(B14)Leu----Val] observed in association with HB S in an Arabian family. 151 2

The frequency of the beta S mutation in the district of Coruche/Portugal is estimated to be about 4% from analysis of a group of 181 school children and their teachers in an area in which malaria has been endemic until recently. Several white Portuguese patients with sickle cell disease (six homozygous SS and one S beta degree thalassaemia) were found in a group of 309 further patients who were known and followed up by local medical practitioners. These patients had clinical and haematological features similar to patients of African origin, although their growth and sexual development appeared to be normal. The analysis of an array of polymorphic restriction sites within the beta S globin gene cluster (beta S haplotype) showed patterns that are known to occur in Africa. The frequencies of the three main African beta S haplotypes termed Senegal, Bantu, and Benin reflect the extent of Portuguese naval explorations. It is concluded that the sickle cell gene in Portugal has probably been imported from Africa and has been amplified in comparison with other genes characteristic for African races because of the selective advantage of AS heterozygotes in an area endemic for malaria.
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PMID:The frequency and origin of the sickle cell mutation in the district of Coruche/Portugal. 273 37

We report here the haplotypes of 10 MstII-defined SS patients and a S/beta o thalassemia from the Central African Republic, exhibiting 7 different atypical haplotypes that are different from the typical Bantu haplotype that characterize over 93% of the beta s bearing chromosomes in that region of Africa. Of the seven atypical haplotypes, six can be easily interpreted as the result of recombination around the "hot spot" 5' of the beta gene, between a typical Bantu haplotype and other haplotypes available in the normal population. Except for one case that requires further study, this result demonstrates that the main mutational event leading to sickle hemoglobin in Bantu-speaking Africa was the mutation of the beta gene in a Bantu haplotype background.
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PMID:Atypical haplotypes linked to the beta S gene in Africa are likely to be the product of recombination. 317 70

The author was a biochemist who, because he had experience in plasma iron estimations, became involved in the investigation of a hypochromic anemia in India during World War II. This led to another such study in Uganda after the war. There, an investigation of the incidence of sickling led to the discovery of overall differences between Hamitic-speaking tribes and the Bantu and Nilotes. A few exceptions could later be explained on the basis of the effect of malaria on sickling incidence. A mapping of the world distribution of sickle-cell and other hemoglobins followed, as well as a search for factors which cause the severity of sickle-cell anemia to vary. A most important lowering influence on this severity seems to be that of alpha-thalassemia. It is suggested that the high incidence of alpha-thalassemia type 2 (alpha/alpha alpha) in malarial regions is not related to malaria itself but to the beta-chain abnormalities which protect against malaria and therefore are frequent in the same populations. Alpha thalassemia in turn has a selective value because it lowers the pathological effect of sickle-cell anemia, as well as the consequences of Hemoglobin E and beta-thalassemia.
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PMID:Sickle cell anemia 35 years ago: reminiscence of early African studies. 637 13

The beta gene cluster haplotypes, alpha gene status, Hb F level and hematological parameters have been characterized in 154 unrelated Guadeloupe patients with sickle cell disease: 112 with sickle cell anemia, 26 with SC disease, 15 with Hb S-beta-thalassemia, and one patient with Hb S in association with the hereditary persistence of fetal hemoglobin. Fourteen haplotypes in 16 combinations were found, the three major African haplotypes were present on 92% of all chromosomes: 73% Benin, 11% Bantu, 8% Senegal. Among SS patients, 57% were Benin homozygotes, one patient was a Senegal homozygote, one patient was a Bantu homozygote, and all the others were heterozygous. The A gamma T chain was observed on seven chromosomes and about 5% of the analyzed beta S chromosomes exhibited atypical haplotypes. The common haplotype beta C was found in all patients with SC disease. An interesting feature was the high frequency (44%) of deletional alpha-thalassemia among SS patients. Two patients have an alpha-gene globin triplication. The DNA haplotypes and alpha-gene status have been correlated with hematological parameters in these patients. The anthropological aspect of these data is interesting as the haplotypes of the beta-globin gene throw light on the slave trade from the various parts of Africa to the Caribbean Islands in particular, and North America in general.
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PMID:beta S haplotypes, alpha-globin gene status, and hematological data of sickle cell disease patients in Guadeloupe (F.W.I.). 874 33

Admission records of children with sickle cell anemia (SS), in the two main teaching hospitals in Kuwait, were reviewed for a 1-year period. The haplotypes of 92 beta s chromosomes (from 39 SS, 11 AS, 2 S beta-thalassemia [S beta-thal] and 1 SD individuals) were determined using an allele-specific oligonucleotide (ASO) hybridization technique, while the alpha-globin gene status of 27 SS and 33 AS individuals, i.e. 120 chromosomes, was determined with a combination of polymerase chain reaction and AS techniques. A vasooclusive crisis was the most common (60.0%) cause of hospitalization, followed by infections (20%). Hospital admissions were most common during the hottest month of the year (July). Few complications of the disease were seen among patients on follow-up; however, splenomegaly was present in 24.0%, hepatomegaly in 15.2%, gallstones in 15.2% and aseptic necrosis of the femoral head in 6.1%. Haplotype 31 (Saudi Arabia/India) is the most frequent in this community, being present in 80.4% of the chromosomes tested; Benin haplotype 19 was found in 12.0% and Bantu haplotype 20 in 6.5%. Hb F in the haplotype 31 homozygotes and heterozygotes ranged from 11.4 to 35.1% (mean 22.5 +/- 5.2%). The frequency of alpha-thal determinants in the study was 40.0%, the commonest being the -alpha 3.7-kb deletion (27.5%), the alpha 2 polyadenylation signal (AATAAA-> AATAAG) mutation (10.2%) and the IVS-I 5' end GAGGT-GAGG->GAGG pentanucleotide (5 nt) deletion (3.3%). SS patients with coexistent alpha-thal trait did not have severe recurrent infections and none had gallstones. The high frequencies of the Saudi Arabia/India beta s haplotype and alpha-thalassemia trait contribute to the mild nature of SS disease among Kuwaiti Arabs comparable to that in eastern Saudi Arabia.
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PMID:Morbidity, beta S haplotype and alpha-globin gene patterns among sickle cell anemia patients in Kuwait. 887 12

The link between beta s-gene haplotypes and sickle cell anemia has permitted a better understanding of the biological manifestations of this disease. The use of better laboratory methods can help rule out other hereditary factors that can camouflage the real hemoglobin genotype. The clinical heterogeneity of sickle cell disease, which is characterized by the presence of S hemoglobin, can be explained in terms of fetal hemoglobin (HbF) levels, ratio of G gamma chains to A gamma chains, 2,3-diphosphoglycerate levels, linked mutations, beta s haplotypes, coexistence of alpha-thalassemia, and environmental factors. The inheritance of Sen and Arab/Indian beta-gene cluster polymorphisms is associated with a milder clinical course, whereas the Central African Republic (CAR) or Bantu, Cameroon, and Benin haplotypes are linked with severe sickle cell disease. The CAR haplotype carries the worst prognosis of all (less than 12% HbF levels and adult-type G gamma:A gamma ratio). Once characterized, these DNA polymorphisms also assume great importance as anthropologic and genetic markers. In America, beta s haplotypes are contributing to a better understanding of Black American roots and their African ancestry. There is ample evidence of genetic variability not only between different Black populations in America, but also within the same country, as is the case in Costa Rica.
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PMID:[Hemoglobin S haplotypes: their epidemiologic, anthropologic and clinical importance]. 950 56

We have identified the beta s-globin gene haplotypes of 85 patients with sickle cell disease attending the Dubai Thalassemia Center and assessed the influence of haplotype, alpha-thalassemia, and fetal hemoglobin on the clinical presentation. Identification of the beta s haplotypes was based on mutation analyses in the promoter sequences of the G gamma- and A gamma-globin genes. The Arabian-Indian haplotype was found in 52% of the beta s chromosomes, whereas the remaining were the Bantu and Benin haplotypes. Those with the Arabian-Indian haplotype in this group had a significantly higher fetal hemoglobin (Hb F) level (mean 27%) and a milder clinical course. In contrast, those with the African haplotypes, Bantu and Benin, expressed relatively lower Hb F levels (mean 11.3%), with a severe clinical presentation. Coinheritance of alpha-thalassemia trait in the African haplotypes had an ameliorating effect on hemolytic episodes, but vaso-occlusive crises were more frequent.
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PMID:Genotype-phenotype correlation of sickle cell disease in the United Arab Emirates. 961 21

Sickle cell anemia is a monogenic hereditary disease characterized by a mutation in the beta globin gene. Five major haplotypes associated with the beta S mutation have been defined: Benin, Bantu, Senegalian, Camerounian, and Arabo-Indian. Previous studies in northern Tunisia showed that sickle cell anemia was of Benin origin in this region. Patients from the south of Tunisia, mainly from the Kebili region, were not previously concerned. In this study, we have determined the beta S haplotype and evaluated phenotypical expression of the disease in 14 patients from this latter region. The use of four restriction endonucleases having polymorphic sites in the beta globin gene showed that all patients had the Benin haplotype, confirming the Benin origin of sickle cell anemia in Tunisia. This haplotype is associated with an heterogeneous expression of fetal hemoglobin (HbF) with extremes varying from 2.4 to 16.3% and a mean expression rate of 8.16%, which is in accordance with literature data. In spite of the haplotype homogeneity in our patients, clinical heterogeneity was noted. A unique case of alpha-thalassemia could not explain this heterogeneity. In contrast, we found a certain correlation between fetal hemoglobin expression and clinical severity.
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PMID:[Hemoglobin beta S haplotype in the Kebili region (southern Tunisia)]. 961 41

Twenty-five individuals were studied from four unrelated Mexican Mestizo families with Hb D-Los Angeles. We observed five compound heterozygotes: four for Hb S and Hb D, and one for Hb D and beta-thalassemia (beta(0) 39 nonsense mutation); 16 heterozygotes: four for Hb S, seven for Hb D, and five for beta-thalassemia, while the remaining four were normal. The four Hb S/Hb D patients had severe hemolytic anemia, while in the Hb D/beta-thalassemia patient, the anemia was similar to that of a beta-thalassemia heterozygote; therefore, Hb D is clinically harmful when it is associated with Hb S. The beta(S) chromosomes were associated with the Benin haplotype in two families and Bantu in one family, while the beta(D) and beta(0) 39 mutations were associated with haplotype 1 [+ - - - - + +]. The Bantu and Benin haplotypes have been found with high frequency in Hb S individuals from the East Coast and Northwestern Mexico. The beta(D) chromosomes from Italy were also shown to be associated with haplotype 1, the most frequently observed haplotype in the world; there are no haplotype studies on beta(D) chromosomes from India or China where Hb D-Los Angeles is most common. Thus, the true origin of this mutation observed in these Mestizo families remains to be elucidated.
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PMID:Hb D-Los Angeles associated with Hb S or beta-thalassemia in four Mexican Mestizo families. 1049 Jan 35


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