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)

We have identified different beta-thalassemia mutations in 93 members of 34 families of Czech or Slovakian descent using gene amplification, hybridization with specific 32P-labeled oligonucleotide probes, sequencing of amplified DNA, and gene mapping. The G----A mutation at IVS-I-1 was found in 18 families; other Mediterranean mutations were IVS-II-1 (G----A), IVS-II-745 (C----G), IVS-I-110 (G----A), and codon 39 (C----T); these were present in 9 additional families. The G----T mutation at codon 121, known to cause Heinz-body beta-thalassemia, was present in 3 families, and the frameshift at codons 82/83 (-G), first described in the Azerbaijanian population, in 2 families. A newly discovered allele was a frameshift at codons 38/39 (-C). One beta-thalassemia allele was incompletely characterized. We observed in 2 families a T----C mutation at position +96 UTR (untranslated region) relative to the termination codon; this mutation likely is a rare polymorphism. alpha-Thalassemia was rare; only one person carried the -alpha 3.7 heterozygosity, and one other had a yet to be identified alpha-thalassemia-1, while seven had the alpha alpha alpha anti 3.7 triplication.
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PMID:Molecular characterization of beta-thalassemia in Czechoslovakia. 174 Mar 17

Nonsense mutations of the beta-globin gene are a common cause of beta-thalassemia. It is a hallmark of these mutations not only to cause a lack of protein synthesis but also a reduction of mRNA expression. Both the pathophysiologic significance and the underlying mechanisms for this surprising phenomenon have so far remained enigmatic. We report that the reduction of the fully spliced mutant beta-globin mRNA already manifests itself within the nucleus. In contrast, the levels of mutant pre-mRNA are normal. The promoter and the 5'-untranslated region (5'-UTR) of the herpes simplex virus type 1 thymidine kinase (HSV1 Tk) gene can independently circumvent this recognition/response mechanism in cis and restore nonsense mutated beta-globin mRNA expression to normal levels. These two genetic elements can thus exert a dominant influence on the post-transcriptional control of nonsense mutated beta-globin gene expression. While wild-type mRNA levels are restored by fusion of the HSV1 Tk 5'-UTR to the nonsense mutated beta-globin reading frame, translation of a wildtype reading frame in such a hybrid is precluded. In contrast, the HSV1 Tk promoter appears to efficiently deliver the mRNA to the translational apparatus. The 5'-UTR and the promoter sequences therefore control the nuclear fate of nonsense mutated beta-globin mRNA by separable pathways. The nuclear mRNA degradation mechanisms examined here may prevent the synthesis of C-terminally truncated beta-globin chain fragments and may protect heterozygotes from clinically relevant symptoms of beta-thalassemia.
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PMID:Nuclear degradation of nonsense mutated beta-globin mRNA: a post-transcriptional mechanism to protect heterozygotes from severe clinical manifestations of beta-thalassemia? 788 37

The genotype of hepatitis C virus (HCV) of 172 HCV-RNA positive serum specimens taken from patients with chronic liver diseases, thalassaemia major, chronic renal failure (CRF), haemophilia and intravenous drug abusers (IVDA) was determined by analysis of the amplified 5'UTR region by genotype-specific oligonucleotide probes and restriction fragment length polymorphism (RFLP). Six different genotypes and subtypes (1a, lb, 2, 3, 4 and 6) were found. Genotype lb was the predominant genotype among patients with chronic liver diseases (69.6%), followed by genotype 6 (18.8%), which was similar to that reported for blood donors in earlier studies. Pronounced differences in the distribution of genotypes were seen between the four risk groups. Patients with CRF had a similar distribution to those with chronic liver diseases, whilst the greatest diversity of genotypes was seen in patients with haemophilia, which was expected since they were given factor VIII manufactured overseas. Genotype 6 was particularly prominent in patients with thalassaemia major (50%) and IVDA (62.5%). It is possible that clonal spread of HCV genotype 6 has taken place among a closed subset of the population in Hong Kong through intravenous drug abuse.
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PMID:High prevalence of hepatitis C virus genotype 6 among certain risk groups in Hong Kong. 974 72

We report the clinical, haematological, biosynthetic and molecular data of 12 beta-thalassaemia intermedia patients and their heterozygous parents, all of whom carried a rare C-->G mutation at nucleotide position 6 3' to the termination codon (term. cd +6 C-->G) in the 3' untranslated region (3' UTR) of the beta-globin gene (+1480 C-->G). This mutation has been reported previously in a single beta-thalassaemia intermedia patient of Greek origin. The 12 patients of the present study had the clinical phenotype of mild non-transfusion-dependent thalassaemia intermedia, preserving haemoglobin levels around 9 g/dl and haemoglobin F levels <25%. All were compound heterozygotes for the +1480 C-->G mutation and common severe beta-thalassaemia mutations. The haematological parameters of heterozygotes with this mutation were within the normal range with the exception of a slightly raised alpha/non-alpha-globin chain synthesis (1.2-1.9). mRNA analysis demonstrated a 20-34% reduction in mRNA levels associated with the +1480 C-->G mutation compared to normal beta-globin alleles. These findings confirm that the C-->G mutation at position 6 3' to the termination codon is a mild beta-thalassaemia mutation causing slight reduction in beta-globin mRNA levels and beta-globin chain synthesis. It becomes clinically relevant when co-inherited with a severe beta-thalassaemia mutation in trans.
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PMID:Molecular, haematological and clinical studies of a silent beta-gene C-->G mutation at 6 bp 3' to the termination codon (+1480 C-->G) in twelve Greek families. 979 88

We describe the setting up of an in vitro expression system for the analysis of mutations of the beta-globin gene. The system is based on the stable transfection of a normal or mutated beta-globin gene into mouse erythroleukaemia (MEL) cells. The expression construct contains an Agamma gene as an internal control and both globin genes are under the control of the HS2 element of the beta LCR. The system enables analysis of transcription, RNA processing and transport, as well as mRNA stability. With non-mutant genes, high-level expression of both beta and Agamma genes is seen and both mRNAs are stable. The system was validated by comparing the expression of the beta654 thalassaemia splicing mutation in MEL cells with its well-characterized expression in vivo. The level of the initial transcript, the proportion of abnormally spliced mRNA and its instability during erythroid cell maturation were all faithfully reproduced. The system was used to examine the mechanism by which two mutations in the beta-globin 5' untranslated region (5' UTR) result in beta thalassaemia. Surprisingly, the mechanism appeared to differ in the two cases, with the C-G substitution at position +33 affecting transcription, whereas the -T deletion at position +10 resulted in a translational defect. The stably transfected MEL cells, with an internal control and an endogenous enhancer, appear to be a valid and realistic experimental model, superior to transient expression studies. This system should find wide application in the analysis of the effects and mechanisms of gene inactivation in mutations affecting the beta-globin as well as other genes.
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PMID:An in vitro system for expression analysis of mutations of the beta-globin gene: validation and application to two mutations in the 5' UTR. 1051 95

Prevention of beta-thalassemia implies knowledge of the molecular spectrum occurring in the population at risk. This knowledge is necessary, especially when a prevention protocol is applied to a multiethnic population. For this purpose, we have recently analyzed a large population of Iranian patients living in the Province of Hormozgan in Iran, and a small group of Iranian patients living in The Netherlands. We have found a different mutation spectrum in both populations as compared to the data obtained by other authors for the Iranian regions of Tehran, Fars, Sistan Balouchestan, Bushehr, and Khouzestan. The IVS-I-5 (G-->C) is the most frequent mutant in the province of Hormozgan (69%), followed by the IVS-II-1 (G-->A) (9.6%), while the IVS-I-1 (G-->A) was the most frequent defect found in the Iranian population sample in The Netherlands. The IVS-II-745 (C-->G) mutation in cis with the 5'UTR (untranslated region) +20 (C-->T) transition was observed in two unrelated, transfusion-dependent homozygotes, living in the Hormozgan Province where, in contrast with populations living in other provinces of Iran, no IVS-I-110 (G-->A) or IVS-I-1 (G-->A) mutations were found. We report the molecular spectra of our population samples and compare them with the mutation spectra observed in the Iranian populations by other authors. We discuss the severe phenotype of the patients homozygous for the IVS-II-745 (C-->G) mutation, linked in cis to the 5'UTR +20 (C-->T) transition. Molecular analysis using commercial kits is briefly compared with denaturing gradient gel electrophoresis, emphasizing the value of a rapid method of detection for molecular defects in areas where many mutations occur.
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PMID:Molecular spectrum of beta-thalassemia in the Iranian Province of Hormozgan. 1130 Mar 48

We provide the first description of a homozygote patient for the G-->A substitution in the 5' UTR of the beta-globin gene. The proband was a 17-year-old girl with beta-thalassaemia intermedia who had never received a blood transfusion. The physical examination revealed a well-developed women with no facial or bony abnormalities. There was mild paleness and mild splenomegaly which was 2 cm below the costal margin. The haemoglobin (Hb) was 7.6 g/dl, Hb A(2) 5.4% and Hb F 14.6% of the total Hb. The Hb A(2) of both parents was 3.5%. The Hb F level in the mother and father were 0.9, 1.2% and the mean cell volume (MCV) value was 70 and 72 fl respectively. DNA analysis of the beta-gene region of the propositus revealed homozygosity for a G-->A substitution at nucleotide +22 relative to the beta-gene cap site, within a functional downstream region that was referred to as the DCE (downstream core element). In addition to the data obtained previously from in vitro transcription assays, clinical findings and in vivo expression studies gave some valuable clues about the effect of +22 G-->A mutation on the expression of beta-gene. Phenotypic expression of this homozygous patient is highly suggestive that G-->A substitution at nt +22 confers a relatively mild (silent) beta(+)-thalassaemia phenotype.
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PMID:beta-Thalassaemia intermedia in a Turkish girl: homozygosity for G-->A substitution at +22 relative to the beta-globin cap site. 1172 17

We have studied the expression of the silent beta-thalassaemia term+6 (C-->G) mutation, at nucleotide 6 after the stop codon within the human beta-globin 3' untranslated regions (3'UTR), by stable transfection in murine erythroleukaemia (MEL) cells. Steady state mRNA levels from transfected MEL cells containing the term+6 mutant allele were reduced by 52-60%, compared with those obtained from the normal beta-globin gene, in both total and cytoplasmic RNA fractions, showing that the mutation itself is responsible for the similar data obtained from patients. Upon analysis of nuclear RNA, the term+6 mutation was found to also lower the ratio of cleaved/uncleaved transcripts by 22-30%, thus revealing that it interferes with correct 3'-end formation of beta-globin mRNA. The term+6 mutation lies within a polypyrimidine track, similar to that in the beta-intervening sequence II (beta-IVSII), which is known to be an important contributor to the promotion of premRNA 3'-end formation. We propose that the two polypyrimidine tracks flanking the translated region of exon III of the human beta-globin gene may co-operate during beta-globin mRNA biogenesis.
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PMID:The beta-globin C-->G mutation at 6 bp 3' to the termination codon causes beta-thalassaemia by decreasing the mRNA level. 1213 63

We evaluated the usefulness of blood group genotyping as a supplement to hemagglutination to determine the red blood cell (RBC) antigen profile of polytransfused patients with beta-thalassemia. We selected 10 alloimmunized patients who were receiving antigen-matched RBCs based on phenotype, and had clinical evidence of delayed hemolytic transfusion reaction. DNA was prepared from blood samples and RH E/e, K1/K2, FY A/FY B, and JK A/JK B alleles were determined by PCR-RFLP. RH D/non-D was determined according to the PCR product size associated with the RHD gene sequence in intron 4 and exon 10/3'UTR. RH C/c was tested by multiplex PCR. The phenotypes and genotypes of nine of the 10 samples were discrepant. Five of the discrepancies occurred in the Rh system. One sample was phenotyped as Rhcc and genotyped as RH C/C, and two samples were phenotyped as RhCc and genotyped as RH C/C. Two other samples were phenotyped as RhEe and genotyped as RH e/e. Three samples had discrepancies in the Kidd system with phenotype Jk(a+b+) and were genotyped as homozygous for JK B. One sample had a discrepancy in the Duffy system: it was phenotyped as Fy(a+b-) and homozygous for FY B. Genotyping was very important in determining the true blood groups of many polytransfused patients with beta-thalassemia, and it assisted in the identification of suspected alloantibodies and the selection of antigen-negative RBCs for transfusion.
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PMID:Blood group genotyping facilitates transfusion of beta-thalassemia patients. 1235 49

Determinants of mRNA stability are frequently positioned in the 3'UTR where they are not subject to disruption by actively translating ribosomes. Two related individuals with beta thalassaemia who carry a beta-globin gene containing a 13 nt deletion in its 3'UTR have recently been described. Its position within the 3'UTR, as well as its relative distance from other known functionally important elements, suggested that the deletion might overlay previously unrecognized determinants of beta-globin mRNA stability. We studied the impact of the Delta13 mutation on beta-globin gene expression in vitro and in vivo. The adverse effect of the Delta13 mutation on beta-globin expression was confirmed in studies utilizing reticulocytes from a betaDelta13 heterozygote, which indicated a sixfold reduction in the relative level of the mutant mRNA. Additional in vitro analysis indicated that the deletion did not affect the capacity of the betaDelta13 mRNA to assemble an mRNA-stabilizing mRNP 'beta-complex'. Unexpectedly, functional tests in both primary erythroid cells and in a transgenic mouse model demonstrated that the betaDelta13 mRNA was fully stable, suggesting that the Delta13 mutation affects accumulation of the fully processed mRNA at an earlier step. Consistent with this, there was a relative excess of unprocessed betaDelta13 mRNA in erythroid progenitors from a betaDelta13 heterozygote. Taken together, these results define a new thalassaemic determinant, which acts to decrease beta-globin mRNA levels by inhibiting the efficiency of nuclear processing events, and suggest a previously unanticipated complexity to the role of the 3'UTR elements in the regulation of beta-globin gene expression.
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PMID:A 3'UTR mutation affects beta-globin expression without altering the stability of its fully processed mRNA. 1247 95


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