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)

By using probes for epsilon-, Psibeta(1)-, and beta-globin genes, we found four additional polymorphic restriction sites that have frequencies >0.1 in persons of Mediterranean area origin, Asian Indians, and American Blacks. Three of these (HincII sites) and the two previously described polymorphic HindIII sites [one in intervening sequence (IVS) II of each gamma-globin gene] are distributed over 32 kilobases (kb) of DNA located 5' to the delta-globin gene. This region of DNA comprises two-thirds of the beta-globin gene cluster. Since each of these five polymorphic sites can be present (+) or absent (-), in theory there exist 32 possible combinations of sites (haplotypes). However, in Italians, Greeks, Indians, and Turks, 3 of the 32 haplotypes, (+----), (-+-++), and (-++-+), account for 92% of 89 beta(A) chromosomes examined. The observed frequencies for these haplotypes are 0.64, 0.15, and 0.13 in the populations studied, in contrast to expected frequencies (based on the observed gene frequencies at each of the five sites) of 0.20, 0.006, and 0.005, respectively. In American Blacks, a fourth haplotype, (----+), which is rare in non-Black populations, has a frequency of 0.37 in contrast to its expected frequency of 0.05. These results suggest a nonrandom association of DNA sequences over 32 kb 5' to the delta-globin gene in all populations studied. Two other polymorphic sites 3' to the delta gene (the newly discovered Ava II site in IVS II of the beta-globin gene and the BamHI site 3' to it) are nonrandomly associated with each other but randomly distributed with respect to the above haplotypes. This suggests that randomization of sequences has occurred within 12 kb of DNA between these two nonrandomly associated sequence clusters. Nonrandom association of polymorphic restriction sites has practical consequences in that it limits the usefulness of these additional HincII sites for prenatal diagnosis of hemoglobinopathies by linkage analysis. These sites provide little additional information for detection of beta-thalassemia, while the polymorphic Ava II site, which lies outside the nonrandomly associated sequences 5' to the delta gene, improves the test applicability from 52% to 70% of couples at risk.
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PMID:Nonrandom association of polymorphic restriction sites in the beta-globin gene cluster. 627 83

Two newly developed techniques have greatly enlarged our knowledge of the basic genetic defects of the beta-thalassemias: 1) Restriction enzyme digestion of cellular DNA followed by analysis of the cleaved fragments. 2) Cloning of beta-globin genes from patients with beta-thalassemia and subsequent determination of the nucleotide sequence of these genes. Some of the results are presented. Only rarely a deletion of the beta-globin gene was found. In most cases, a mutation within the beta-globin gene was discovered as basis for the beta-thalassemia syndrome. These and other findings are a starting point for planning a therapy of beta-thalassemia by means of gene technology: correction of the defect within the abnormal beta-globin gene, replacement of the beta-globin gene, stimulation of gamma-globin synthesis.
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PMID:The genetics of thalassemia. 631 85

Sardinian delta beta 0-thalassemia is an inherited syndrome characterized by the inactivity of the beta-globin gene and the persistent activity of the fetal gamma-globin genes, particularly the A gamma-globin gene. Previous mapping studies with restriction enzymes failed to show any abnormality in the non-alpha globin gene cluster. We have now examined the possibility that this syndrome might result from a single rather than two different defects. Restriction enzyme polymorphisms linked to the delta beta 0-thalassemic non-alpha globin fragments were defined providing the basis for cloning the delta beta 0-thalassemic beta-globin gene from the DNA of a heterozygous patient. This gene appears to carry a C----T single mutation causing the appearance of a stop codon at amino acid position 39 of the beta-globin gene. This mutation was previously reported in beta 0-thalassemic patients, in linkage with different haplotypes. We conclude that Sardinian delta beta 0-thalassemia is the result of two separate mutations, the former one (unknown) responsible for persistent expression of gamma-globin genes, the latter for beta 0-thalassemia.
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PMID:The beta-globin gene in Sardinian delta beta 0-thalassemia carries a C----T nonsense mutation at codon 39. 632 88

A new approach to the antenatal diagnosis of beta-thalassaemia major (homozygous beta-thalassaemia) has been developed. Using rhodamine-labelled antibodies directed against gamma-globin, fetal erythrocytes can be identified in fetal blood samples contaminated with maternal cells, and using fluorescein-labelled antibodies directed against beta-globin, the presence of beta-chains (and thus Hb-A) may be determined in the same cells by double labelling immunofluorescence microscopy. The results obtained using this technique on blood samples from fetuses at risk for beta-thalassaemia major show that if fetal beta-chains are detected immunochemically the fetus is normal or heterozygous for beta-thalassaemia and over 85% of the fetuses unaffected by beta-thalassaemia major may be identified in this way. The technique is rapid, applicable to small numbers of fetal erythrocytes heavily contaminated with maternal cells and eliminates the necessity of determining chain synthesis ratios in those cases where beta-chains are detected immunochemically.
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PMID:A new approach for the antenatal diagnosis of beta-thalassaemia: a double labelling immunofluorescence microscopy technique. 633 48

We have determined the DNA sequence of a 1464 bp segment immediately flanking the 5' side of the human beta-globin gene. The sequence shows little similarity to the corresponding regions of the epsilon- or gamma-globin genes. There is about 75% homology, however, between the 5' extragenic regions of the beta-globin genes of man, goat and rabbit respectively. The mouse beta minor globin gene, but not the mouse beta major globin gene, also shares this extensive homology. A short segment of simple sequence DNA is found from about 1418 to 1388 bp upstream from the human beta-globin gene which consists of repeats of the sequence (TTTTA). Similar DNA sequences are also found at several sites in the large intron of the beta-globin gene. We have compared the DNA sequence of the 5' extragenic region of the normal beta-globin gene with the same segment of the beta-globin gene of a patient with beta thalassaemia. Of the two nucleotide differences observed, one generates a polymorphic HinfI site present 990 bp upstream from the beta-globin gene in the thalassaemic beta-globin and absent in the normal gene. A second beta thalassemic beta-globin gene which has the same molecular defect as the above mentioned case, however, lacks this HinfI site. It is therefore not yet clear whether this HinfI site will have any value in prenatal diagnosis of beta thalassaemia.
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PMID:The DNA sequence of the 5' flanking region of the human beta-globin gene: evolutionary conservation and polymorphic differences. 698 83

We have previously described a unique type of delta beta-thalassemia in a Chinese family characterized by increased expression of the G gamma and A gamma fetal globin genes in the absence of a large deletion in the beta-globlin gene cluster. Our earlier study of the beta-globin gene on this delta beta-thalassemia chromosome showed a promoter mutation in the TATA box. In this report, we describe the results of our study of the fetal globin domain of this delta beta-thalassemia chromosome. We have cloned a 13-kb DNA fragment that includes the G gamma and the A gamma genes and the 3' A gamma enhancer element of this delta beta-thalassemia chromosome. DNA sequence analysis of the G gamma and A gamma-globin genes including their promoters did not show any mutations, but analysis of the putative enhancer element downstream from the A gamma-globin gene showed a C to T substitution 2,401 nucleotides downstream from the A gamma cap site. We performed DNA linkage analysis to determine if this mutation is unique to this chromosome or represents a common polymorphism. Our linkage analysis showed that this mutation is not a common polymorphism and that it is also not an intrinsic part of the haplotype of the chromosome on which it was found. We also studied the interaction of nuclear proteins from erythroid and nonerythroid cells with the DNA sequences surrounding this mutation. We have shown by in vitro DNase I footprinting that this mutation falls within a region that is occupied by a novel DNA-binding protein that binds to this site in nuclear extracts from erythroid, but not nonerythroid cells. The binding of this nuclear protein to DNA appears to be dependent on GATA-1 binding to an adjacent GATA-1 site. We have also developed a new functional assay to compare the activity of the normal and mutant A gamma enhancer elements in erythroid cells. Analysis of the activity of the mutant enhancer shows that the mutation completely eliminates all enhancer activity in this assay. These findings suggest that this mutation of the A gamma enhancer on a chromosome that carries a partially inactivated beta-globin gene may be responsible for the increased expression of both gamma-globin genes seen in this condition.
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PMID:Increased expression of the G gamma and A gamma globin genes associated with a mutation in the A gamma enhancer. 751 19

A novel deletion in the human beta-globin gene cluster associated with increased levels of fetal hemoglobin (HbF) in adult life was molecularly characterized in a member of a family of Eastern European descent. The phenotype of the deletion, documented in five members of the family, shows mild hypochromia and microcytosis (mean corpuscular Hb, 24 to 25.9 pg; mean corpuscular volume, 74 to 78.5 fL) but high production of HbF (13% to 24%) with heterocellular distribution (36% to 86% F cells). Extensive restriction enzyme mapping of the beta-globin cluster and sequencing of the region encompassing the breakpoints showed that the deletion starts 1,612 bp upstream of the cap site of the delta-globin gene, and terminates within the first intron of the beta-globin gene, deleting 9.1 kb of DNA. This length is definitely shorter than the average 12.0 kb of the previously characterized (delta beta) zero-thalassemias. The 5' breakpoint of the new deletion is close to that of the Yugoslavian delta beta-thalassemia deletion, whereas the 3' breakpoint is very close to those of the Turkish and the Greek beta zero-thalassemia deletions. The breakpoints of the deletion occur within a direct repeat containing a tetranucleotide exhibiting homology to a donor-splice site, and is symmetrically flanked by a set of 13- and 14-bp homologous complementary sequences, respectively. It is likely that the deletion may be the result of an "illegitimate" or "nonhomologous" recombination event to which these two short sequences may have contributed. It is of interest that the novel deletion (9.1 kb) is comparable to the Italian HPFH-5 deletion (12.9 kb), regarding both the size and the position of the breakpoints. However, the HPFH-5 deletion includes sequences flanking the breakpoints that are preserved in the new deletion. Considering the resulting two discrete phenotypes (ie, delta beta-thalassemia v HPFH), it can be hypothesized that the deleted sequences in the Italian HPFH-5 mutation may harbor regulatory elements that exert a negative control on the gamma-globin gene expression.
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PMID:Eastern European (delta beta) zero-thalassemia: molecular characterization of a novel 9.1-kb deletion resulting in high levels of fetal hemoglobin in the adult. 784 5

We have collected haematological, haemoglobin (Hb) and DNA sequence data for 29 patients with a homozygosity for the IVS-I-6 (T-->C) mutation with the intention of identifying factors contributing to the observed variability in the severity of the disease. None of the patients had received blood transfusion therapy for at least 6 months prior to the study. Hb levels varied from 5.0 to 9.9 g/dl. Patients with high Hb F (more than 1.5 g/dl or > 20%) had high total Hb levels (7.5-9.7 g/dl) but some with low Hb F also had high total Hb levels; two had a concomitant alpha-thalassaemia-2 (alpha-thal-2) heterozygosity. An inverse correlation between the Hb F and Hb A2 levels was observed. The majority of the patients were homozygous for haplotype VI (49/58 chromosomes) but haplotypes IV (2/58) and VII (7/58) were also present. The only haplotype IV homozygote had high Hb F levels with high G gamma values and the C-->T mutation at position -158 in the G gamma promoter, while both high and low Hb F levels were observed among patients with haplotypes VI and VII. Analysis of sequence variations in regulatory regions included the 5' hypersensitive sites (HS) 4. 3 and 2 of the locus control region (LCR), the G gamma and A gamma 5' flanking regions, the second intervening sequence (IVS-II), and the 5' beta-globin gene region in two patients with high Hb F (one homozygote each for haplotypes VI and IV), and in two patients with low Hb F levels (one homozygote each for haplotypes VI and VII). Haplotype specific differences were observed in the LCR 5' HS-2 and in the G gamma and A gamma flanking and IVS-II regions; however, no differences were present between the low and high Hb F-producing haplotype VI chromosomes, suggesting a major role for factors which are not linked to the beta-globin gene cluster in mediating gamma-globin gene expression in patients with this type of beta-thal.
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PMID:Possible factors influencing the haemoglobin and fetal haemoglobin levels in patients with beta-thalassaemia due to a homozygosity for the IVS-I-6 (T-->C) mutation. 752 23

Effective gene therapy for the severe hemoglobin (Hb) disorders, sickle-cell anemia and thalassemia, will require an efficient method to transfer, integrate, and express a globin gene in primary erythroid cells. To evaluate recombinant adeno-associated virus (rAAV) for this purpose, we constructed a rAAV vector encoding a human gamma-globin gene (pJM24/vHS432A gamma). Its 4725-nucleotide genome consists of two 180-bp AAV inverted terminal repeats flanking the core elements of hypersensitive sites 2, 3, and 4 from the locus control region of the beta-globin gene cluster, linked to a mutationally marked A gamma-globin gene (A gamma) containing native promoter and RNA processing signals. CD34+ human hematopoietic cells were exposed to rAAV particles at a multiplicity of infection of 500-1000 and cultured in semisolid medium containing several cytokines. A reverse transcriptase polymerase chain reaction assay distinguished mRNA signals derived from transduced and endogenous human gamma-globin genes. Twenty to 40% of human erythroid burst-forming unit-derived colonies expressed the rAAV-transduced A gamma-globin gene at levels 4-71% that of the endogenous gamma-globin genes. The HbF content of pooled control colonies was 26%, whereas HbF was 40% of the total in pooled colonies derived from rAAV transduced progenitors. These data establish that rAAV containing elements from the locus control region linked to a gamma-globin gene are capable of transferring and expressing that gene in primary human hematopoietic cells resulting in a substantial increase in HbF content.
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PMID:Recombinant adeno-associated virus (rAAV)-mediated expression of a human gamma-globin gene in human progenitor-derived erythroid cells. 752 85

The beta-globin gene clusters of three unrelated Thai families with a nondeletional type of hereditary persistence of fetal haemoglobin (HPFH) were studied using polymerase chain reaction-related techniques. All appeared to have normal nucleotide sequences from the Cap site to position -400 of both the G gamma- and A gamma-globin genes. Two individuals suspected of having a beta-thalassaemia gene linked to the high HbF condition also had a normal beta-globin gene sequence, spanning from position -108 from the Cap site to the polyadenylation site. Deletion of four nucleotides, AGCA, at positions -225 to -222 of one A gamma-globin allele was detected in one subject and was confirmed by dot-blot hybridization. Restriction fragment length polymorphisms in the beta-globin gene cluster showed that the 5' haplotype (-+-++) and the presence (+) of an Xmm 1 polymorphic site at -158 of the G gamma-globin gene are associated with the high F phenotype in these families. Direct sequencing of the 5' hypersensitive-2 (5' HS-2) site of the locus control region (LCR) showed that this Xmn 1 (+) site is also linked to a specific rearrangement of TA repeats (TA)9CACATATACG(TA)10, in HS-2 segment.
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PMID:Nondeletional type of hereditary persistence of fetal haemoglobin: molecular characterization of three unrelated Thai HPFH. 752 42


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