UMLS:C0039730 - FACTA Search

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

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

Hb A2 and its variant B2 (alpha 2 delta 2(16)(A13)Gly----Arg) were quantitated in the blood of subjects with three different types of beta-thalassemia and with the delta-B2 anomaly in cis or in trans to the beta-thalassemia determinant. In one family, the delta-B2 mutation was in cis to a newly discovered codon 47 (+A) frameshift. The levels of Hbs A2 and B2 were nearly the same and approximately 70% higher than those in simple Hb B2 heterozygotes. In two additional families, the delta-B2 variant was in trans to either a deletional beta-thalassemia (1,393 bp) involving part of the beta-globin gene and part of the beta-globin gene promoter, or to the -88 C----T promoter mutation. In both instances, the Hb B2 level was increased by approximately 80%, but the Hb A2 level was increased by approximately 270% and 200%, respectively. These data indicate two mechanisms that will cause an increase in delta chain production. One is consistent with a general mechanism concerning the relative excess of alpha chains in beta chain deficiencies which will combine with delta chains to form variable levels of Hb A2 dependent on the severity of the beta chain deficiency. The second concerns the loss of beta-globin gene promoter activity, perhaps by an absence of (or decreased) binding of specific protein(s) to this segment of DNA and a concomitant increase in delta-globin gene promoter activity in cis.
...
PMID:Observations on the levels of Hb A2 in patients with different beta-thalassemia mutations and a delta chain variant. 169 2

Restriction endonuclease analysis was used to detect alpha-gene deletions and to determine the haplotypes in the DNA of the beta S-gene-cluster [Benin, Central African Republic (CAR), and Senegal] in 221 patients with sickle cell anemia (SS). The clinical expression of SS was modified by the beta S-gene-cluster polymorphisms and the alpha-gene status (alpha-thalassemia-2). The overall risk of soft tissue organ failure caused by the obliterative sickle vasculopathy (including stroke, renal failure, chronic lung disease with cor pulmonale, leg ulcers, and young adult death) was increased threefold in those with a CAR haplotype and was decreased in those with a Senegalese chromosome (p = 0.003). In the presence of a Senegalese haplotype, the patient's health is better, and with the CAR haplotype it is always worse. With the Benin, it is intermediate. Acute recurrent clinical events including hospitalized sickle cell crisis, bone infarction, and infection are decreased in frequency in those with a Senegalese haplotype. The risk of most acute events including acute chest syndrome is equivalent in those with Benin or CAR haplotypes. In the United States, alpha-thalassemia-2 is co-inherited randomly among the beta S-gene-cluster haplotypes. Acute events occurring during childhood are minimally effected by this co-inheritance. The risk of soft tissue organ failure is decreased. After the age of 20 years, painful episodes of the lumbar dorsal area are increased in patients who had alpha-thalassemia-2 in association with degenerative bone disease.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Beta S-gene-cluster haplotypes in sickle cell anemia: clinical implications. 170 Jun 39

A kit of DNA-probes directed at the cluster of human beta-globulin genes was used to study the incidence rate of 7 polymorphic restriction sites in beta-thalassemia patients and normal donors in the Azerbaijan SSR. Informative polymorphic sites Hind III were detected in GJ and AJ fetal globin genes, Hinc II in psi beta and Hinc III in 3' area of psi beta gene and Ava II in beta-globine gene differing in the incidence rate in the patients and donors. An analysis of haplotypes with respect to informative sites was made in two Azerbaijan families with an affected child. It has been found that the analysis with respect to one informative site is sufficient for prenatal diagnosis of the status of the following children.
...
PMID:[DNA diagnosis of beta-thalassemia. Study of restriction fragment length polymorphisms in families with affected children]. 170 73

We have identified a new stable abnormal hemoglobin called Hb Valletta, which is characterized by a Thr----Pro substitution at position 87 of the beta chain. This mutation was found to be linked to that of the gamma chain variant Hb F-Malta-I with a His----Arg mutation at position 117 of the G gamma chain. Both variants were detected in the blood samples of 34 Maltese and two Italian newborn babies with isoelectrofocusing and reversed phase high performance liquid chromatography. Similar analyses of cord blood from 388 additional Maltese newborns failed to identify either one of these two variants. Additional analyses of 353 Maltese adults (including 39 beta-thalassemia heterozygotes) resulted in the detection of two adult Hb Valletta heterozygotes. Dot-blot hybridization analyses of amplified DNA with a probe specific for the G gamma-F-Malta-I variant showed that both also carried that mutation. These results show close linkage of the mutant forms of the G gamma- and beta-globin genes, 27-28 kb apart, and a failure to identify chromosomes with either the Hb F-Malta-I mutation alone or with the Hb Valletta mutation alone, indicating a low recombination frequency.
...
PMID:The linkage of Hb Valletta [alpha 2 beta 287(f3)Thr----Pro] and Hb F-Malta-I [alpha 2G gamma 2117(G19)His----Arg] in the Maltese population. 170 34

In seven kindreds in which sickle cell (SS) patients had elevated (greater than 12%) fetal hemoglobin (Hb F), Milner and colleagues reported that a determinant for elevated Hb F and elevated F cells was linked to the beta s gene. Independently, the Senegal (SEN) beta s haplotype has been found in association with elevated Hb F in SS and beta-thalassemia patients. We have used the kindreds of Milner and colleagues to characterize further the association of haplotype and gamma gene DNA sequence variation with Hb F expression. For the largest kindred, Wi, all four SS had high (greater than 14%) Hb F and both SEN and Benin (BEN) haplotypes. Two AS cases carrying SEN had low Hb F and low F cells, while three AS and one CS carrying BEN had elevated Hb F and elevated F cells; only one AS carrying BEN had low Hb F and low F cells. In order to look for genetic alterations that could account for the elevated Hb F of kindred Wi, we sequenced both the G gamma and A gamma genes of the Wi BEN haplotype. The data showed largely identical G gamma and A gamma genes which may have been generated by two gene conversions: the A gamma promoter was like that of G gamma 3' to -471, while the G gamma IVSII was like that of A gamma in its 5' half. In addition, three new mutations were found in gamma IVSII.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:G gamma and A gamma globin genes are identical from -471 of the promoter midway through gamma IVSII in a Benin beta s haplotype associated with elevated fetal hemoglobin. 170 79

Hemoglobin (Hb) Constant Spring is an alpha-thalassemic hemoglobinopathy that is a major cause of severe alpha-thalassemia in Southeast Asians. The difficulty of diagnosing Hb Constant Spring using standard electrophoretic methods has led to interest in DNA-dependent diagnostic methods. The methods developed have had to contend with the high degree of homology of the alpha 2-globin gene (the site of the Hb Constant Spring mutation) and the alpha 1-globin gene. We have developed a single reaction polymerase chain reaction-based method that uses asymmetric priming and a temperature shift to accomplish dual ends, selective amplification of alpha 2 but not alpha 1 DNA and discrimination of normal and Hb Constant Spring alpha 2 genes by allele-specific fluorescence polymerase chain reaction. Advantages of this method over previous approaches include avoiding radioisotopes, precluding the need for electrophoresis, and serving as its own control for successful amplification. It is readily applicable to routine diagnosis, population screening, and prenatal diagnosis.
...
PMID:Asymmetrically primed selective amplification/temperature shift fluorescence polymerase chain reaction to detect the hemoglobin Constant Spring mutation. 171 43

Identification of the beta s-gene-cluster haplotype and alpha-gene status provides a useful tool for the detection of the high-risk SS patient. The DNA polymorphisms of the beta s-gene-cluster modulate the clinical course in sickle cell anemia, especially as it involves the risk of end stage organ failure of the kidney, lung, brain, eyes, bones, and leg ulcers. This is schematically represented in Figure 4. The disease severity is modified according to the beta s-gene-cluster haplotypes and the co-inheritance of alpha-thalassemia-2. In both Africa and America, the CAR beta s haplotype increases the risk of developing an irreversible complication at an early age. The rate of progression of organ damage is regulated by the beta s-cluster haplotype from birth. The preservation of G gamma Hb F is haplotype dependent and correlates with the overall clinical course of the patient. Further modulation of the clinical course with the co-inheritance of alpha-thalassemia-2 tends to decrease the risk of soft-tissue organ failure and increase the risk of osteonecrosis. Epidemiologic studies in Africa together with clinical correlative analysis in Southern California show that SS patients with a Ben haplotype have a less severe illness than those with a CAR and a more severe illness than those with a Sen. A single individual can be expected to fit into the overall pattern. Some sickle related illness will eventually occur in all. The variable clinical manifestations in sickle cell anemia are modified according to the interaction of alpha gene deletions and the beta s-gene-cluster haplotype, are distinct for each organ, and markedly influence the age of onset of end stage major organ failure. In the presence of a Senegal haplotype, the patient's health is better; with the CAR haplotype, it is always worse; severity is intermediate in the Benin haplotype.
...
PMID:Beta s-gene-cluster haplotypes in sickle cell anemia. Clinical and hematologic features. 171 10

Prenatal diagnosis was performed in 31 pregnancies where the fetuses were at risk for either homozygous alpha(0) - or beta-thalassaemia. First-trimester prenatal diagnosis by DNA analysis using chorionic villi was carried out for 17 pregnancies at risk for homozygous alpha (0)-thalassaemia. The alpha-globin genes in fetal DNA were detected by gene mapping using restriction endonuclease mapping and hybridization with cloned alpha-globin probe. Homozygous alpha (0)-thalassaemia was detected in four fetuses and the results were subsequently confirmed by electrophoresis of the cord blood where only Hb Barts was detected. Prenatal diagnosis for beta-thalassaemia was carried out by globin chain biosynthesis using fetal blood at 18-20 weeks' gestation. Using carboxymethyl (CM) sepharose chromatography, homozygous beta-thalassaemia was predicted in six pregnancies, and one fetus carried Hb E-beta thalassaemia. The seven pregnancies were terminated and globin chain analysis using cord blood confirmed the prenatal diagnoses. The remaining seven fetuses were diagnosed as either normal or beta-thalassaemia carriers. Using DNA analysis and globin chain biosynthesis for prenatal diagnosis of homozygous alpha(0)- and beta-thalassaemia, a 100% correlation was achieved with fetuses predicted to possess the homozygous condition.
...
PMID:Prenatal diagnosis of alpha- and beta-thalassaemias in Singapore--current status. 171 98

We describe a new deletional form of gamma delta beta-thalassemia segregating in two generations of a family of Irish descent. Affected family members present with a beta-thalassemia minor phenotype, normal Hb A2 and Hb F levels. Genomic blotting analyses on DNA from affected family members show heterozygosity for a large deletion beginning at least 15 kb upstream of the 5' endpoint of the gamma delta beta-thalassemia-1 deletion, extending through the entire beta-like globin gene cluster, and continuing for at least 10 kb beyond the 3' endpoint of the deletion associated with the Spanish form of delta beta 0-thalassemia. This deletion is among the largest described so far, and removes at least 205 kb encompassing the entire beta-like globin gene cluster on chromosome 11.
...
PMID:A greater than 200 kb deletion removing the entire beta-like globin gene cluster in a family of Irish descent. 171 5

We describe the occurrence of a chromosome with a G----A mutation at position +22 relative to the Cap site that was found in five patients with beta-thalassemia. All patients had a common type of beta-thalassemia mutation on the second chromosome, namely the frameshift at codon 8 (-AA), the IVS-I-110 (G----A) and the IVS-II-1 (G----A) mutations. The beta genes of two patients, including the 5' and 3' untranslated regions, were completely sequenced and no other mutations, except a few polymorphic sites, were observed. Dot-blot analyses failed to demonstrate this G----A mutation at +22 in nearly 400 beta-thalassemia chromosomes and 180 normal chromosomes. Heterozygotes have the features of a high Hb A2-beta-thalassemia heterozygosity, although the hematological parameters might be less abnormal than observed in heterozygotes for the more common beta-thalassemia mutations. The possibility has been presented suggesting that this mutation might impair the binding of mRNA to ribosomes. Another mutation in this segment of DNA, i.e. a C----G mutation at position +20, is observed exclusively on a chromosome which also carries the C----G mutation at IVS-II-745. It is postulated that the +20 C----G mutation accentuates the beta-thalassemia condition caused by the IVS-II-745 mutation; the mechanism might be similar to that suggested for the G----A at +22 mutation.
...
PMID:The G----A mutation at position +22 3' to the Cap site of the beta-globin gene as a possible cause for a beta-thalassemia. 171 6

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>