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)

An Indian (Asian) patient with compound heterozygosity for Hb Riyadh and beta 0-thalassemia is described. Hb Riyadh forms about 95% of the hemoglobin present. The clinico-pathological picture is identical to that of simple beta-thalassemia trait confirming the harmless nature of the substitution beta 120(GH3) Lys leads to Asn.
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PMID:Hemoglobin Riyadh-beta 0-thalassemia in an Indian family. 51 84

Two unrelated families are reported in which beta-thalassemia trait occurred with a heterozygosity of Hb G-Philadelphia (alpha2 68(E17)Asn leads to Lys beta2) in one family and with Hb Rampa (alpha2 95(G2)Pro leads to Ser beta2) in the other. The percentage of Hb G-Philadelphia was not influenced by the simultaneous presence of a beta-thalassemai determinant, but that of Hb Rampa was descreased from 20% in the simple heterozygote to about 6% in persons with the Hb Rampa-beta-thalassemia combination. Data from in vitro recombination experiments with isolated alpha X, alpha A, and beta A chains, with heme attached, indicated a preferential formation of Hb A over Hb Rampa but not over Hb G-Philadelphia in conditions of relative beta-chain deficiency. This suggests that the rate of assembly of monomers to form dimers or tetramers can be an important mechanism of controlling the quantity of certain hemoglobin variants with critical substitutions in heterozygotes.
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PMID:Variability in the interaction of beta-thalassemia with the alpha-chain variants Hb G-Philadelphia and Hb Rampa. 68 17

The proportion of Hb G Philadelphia (alpha68-Asn leads to Lys) in heterozygotes has been found to have a well-defined bimodal distribution around means of 33% and 46% Hb G. microcytosis and hypochromia are consistently associated with the latter group, who also have a decreased ratio of alpha/beta-chain synthesis in the peripheral blood, but these characters are not linked to the Hb-Galpha gene, because a parent with microcytosis and 46% Hb Galpha may have offspring with 33% Hb G without significant microcytosis. In one family a subject with Hb G and Hb G2 but no Hb A or Hb A2 is presumably a homozygote for alphaG. This subject has microcytosis and a decreased ratio of alpha/beta chain synthesis. In another family a subject with Hbs H, G and G2 but without Hbs A or A2 is heterozygous for both Hb G and alpha thalassaemia I. These findings are compatible with the hypothesis that the alphaG mutation occurs on a chromosome with only a single alpha-chain locus and that the expression in heterozygotes as 46% or 33% Hb G is determined by the homologous chromosome in trans having either one or two normal alphaA genes respectively. The significance of this polymorphism for chromosomes carrying alpha-chain genes is discussed.
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PMID:Studies of the proporation and synthesis of haemoblogin C Philadelphia in red cells of heterozygotes, a homozygote, and a heterozygote for both haemoglobin G and alpha thalassaemia. 97 34

On a field trip toSaudi Arabia (M.A.F.E.H.) in which the relationship between alpha-thalassemia and iron deficiency was studied, a fast moving hemoglobin variant was noted in a 30 year old Saudi Arabian woman. Analysis of the hemoglobin variant showed that the amino acid substitution was beta120 Lys replaced by Asn. This variant had not been described previously and has been named Hb Riyadh. There was also present an alpha-thalassemia and details are given of the imbalance of globin chain synthesis. It was possible to improve considerably the balance in vitro by the addition of hemin.
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PMID:Hemoglobin Riyadh--alpha2beta2 (120(GH3)Lys replaced by Asn). A new variant found in association with alpha-thalassemia and iron deficiency. 105 71

The extent of variability in the number of human hemoglobin (Hb) alpha chain loci has not yet been conclusively determined. There is evidence that in some populations individuals may possess two alpha-chain loci, while in other populations only one locus is present. Electrophoresis of peripheral blood from 53 heterozygotes for Hb G Philadelphia (alpha 68 Asn leads to Lys) revealed that the proportion of Hb G is trimodally distributed, with modes at approximately 20, 30, and 40% Hb G. Familial, hematologic, and statistical studies suggest that hte proportion of Hb G is not random but is genetically controlled and inversely correlated with mean cell volume. Two alternative genetic models are proposed to explain these findings: one assums alpha-thalassemia, while the other postulates variability in the number of alpha-chain loci in the American Black population. Biosynthetic studies of blood from 15 subjects revealed balanced synthesis of alpha and beta globin chains in heterozygotes from all three classes, strongly supporting variable gene dosage rather than alpha-thalassemia as the mechanism underlying the observed trimodality in the proportion of Hb G. Incompatibilities between out results and current concepts of alpha-thalassemia are discussed in the context of differences between Black compared with Oriental and Italian forms of Hb H disease.
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PMID:Trimodality in the proportion of hemoglobin G Philadelphia in heterozygotes: evidence for heterogeneity in the number of human alpha chain loci. 106 76

Hb Geelong [beta 139(H17)Asn----Asp] was detected in a German woman of Polish-Russian descent. It is an unstable variant which appears to increase the severity of a beta (+)-thalassemic phenotype in the propositus. The electrophoretic properties of Hb A and Hb Geelong are similar on cellulose acetate in both acidic and alkaline conditioning. The electrophoretic mobility and the amino acid analysis of beta XT-14 indicated the substitution Asn----Asp at beta 139. The sequence of beta XT-14 was confirmed by dansyl-Edman degradation. The slight increase observed in the P50 of whole blood is not intrinsic to the beta 139 substitution, but is thought to result from an increased 2,3-diphosphoglycerate level in response to anemia. No family studies were possible to investigate the mode of inheritance of either beta (+)-thalassemia or Hb Geelong in the propositus. Synthetic globin chain ratios suggest that impaired synthesis of the variant globin chain is partially responsible for the low level of Hb Geelong in peripheral blood.
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PMID:Hb Geelong [beta 139(H17)Asn----Asp]. 191 39

This study concerned the identification of the beta-thalassaemia mutations that were present in 27 Malay patients with Hb E-beta-thalassaemia and seven Malay patients with thalassaemia major who were from West Malaysia. Nearly 50% of all beta-thalassaemia chromosomes carried the G----C substitution at nucleotide 5 of IVS-I; the commonly occurring Chinese anomalies such as the frameshift at codons 41 and 42, the nonsense mutation A----T at codon 17, the A----G substitution at position -28 of the promoter region, and the C----T substitution at position 654 of the second intron, were rare or absent. Two new thalassaemia mutations were discovered. The first involves a frameshift at codon 35 (-C) that was found in two patients with Hb E-beta zero-thalassaemia and causes a beta zero-thalassaemia because a stop codon is present at codon 60. The second is an AAC----AGC mutation in codon 19 that was present on six chromosomes. This substitution results in the production of an abnormal beta chain (beta-Malay) that has an Asn----Ser substitution at position beta 19. Hb Malay is a 'Hb Knossos-like' beta +-thalassaemia abnormality; the A----G mutation at codon 19 likely creates an alternate splicing site between codons 17 and 18, reducing the efficiency of the normal donor splice site at IVS-I to about 60%.
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PMID:Molecular characterization of beta-globin gene mutations in Malay patients with Hb E-beta-thalassaemia and thalassaemia major. 273 44

Hemoglobin Malay (alpha 2 beta 2 19 Asn----Ser) has been observed in a few Malaysian patients with thalassemia intermedia. The beta Malay substitution increases the homology of the cryptic splice site at codons 17/18/19 of the beta-globin gene to the donor consensus splice sequence, suggesting that the beta-thalassemia associated with this mutation may be due to the generation of a new splice site. To test this hypothesis, we constructed a hybrid gene where we replaced part of a normal beta-globin gene with a PCR amplified region of the beta Malay gene. The expression of this mutant gene was studied in a heterologous transient expression system. The data show that nearly 25% of globin mRNA produced by this gene is abnormally spliced at the new splice site, providing a molecular mechanism for the beta-thalassemia associated with the mutation.
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PMID:Abnormal processing of beta-Malay globin RNA. 277 94

11,129 individuals of the northern area of the island of Sardinia (7,717 newborns and 3,412 adults) were examined for the Hb G-Philadelphia variant [alpha 68(E17)Asn----Lys]. Hemolysates were analysed by isoelectric focusing, and the variant identified by reversed phase high performance liquid chromatography of tryptic peptides. A total of seven heterozygotes (1 in 1,589) were identified. This is probably the highest prevalence of this mutant so far described. Percentages of the variant (average 35.1 +/- 6.2%) were trimodally distributed with modes centering on 28, 36, and 42%, respectively. These values suggest that the G-Philadelphia allele occurs in Sardinians both on a single and on a double locus chromosome. The linkage with alpha-thalassemia may be the reason for the high frequency of the variant.
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PMID:Hb G-Philadelphia, or [alpha 68(E17)Asn----Lys], in north Sardinia: detection by isoelectric focusing and identification by HPLC of tryptic peptides. 323 70

Restriction endonuclease and analyses of DNA from a known Hb F-Yamaguchi heterozygote and three of his relatives have shown a deletion of about 5 kb, which includes one of the gamma genes. This abnormality is similar to the G gamma-thalassemia described recently [4] and is probably caused by an unequal crossing over between-G gamma- and -A gamma T-genes. The abnormal-G gamma A gamma T-X-(X = Asp leads to Asn at gamma 80) hybrid gene produces the gamma-Yamaguchi chain at a level usually seen for G gamma chains only.
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PMID:HB F-Yamaguchi (gamma 75Thr, gamma 80Asn, gamma 136Ala) is associated with G gamma-thalassemia. 619 5


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