Homozygosity for nondeletion δ-β0 thalassemia resulting in a silent clinical phenotype

The clinical phenotype of homozygous β thalassemia varies in severity from the mild thalassemia intermedia to the severe thalassemia major. This variability depends largely on the molecular heterogeneity of β thalassemia defects. We report the first case of a homozygous state for nondeletion Sardinian δ-β0 thalassemia, which resulted in a symptomless clinical phenotype with a peculiar hemoglobin (Hb) pattern (99.8% Hb F and 0.2% Hb A2). The molecular defect was characterized by the presence of 2 nucleotide substitutions: −196C>T in the promoter of the Aγ-globin gene and β 39C>T nonsense mutation. The absence of typical β thalassemia clinical findings was due to the high Hb F output, which compensated for the absence of β chains. The near absence of Hb A2 may have resulted from either alterations in the globin gene transcriptional complex with preferential activation of γ-globin genes and suppression of δ-globin genes or preferential survival of red blood cells with the highest Hb F content and low Hb A2 level.

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Prevalence and clinical phenotype of the triplicated α-globin genes and its ethnic and geographical distribution in Guizhou of China

BMC Medical Genomics ◽

10.1186/s12920-021-00944-9 ◽

2021 ◽

Vol 14 (1) ◽

Author(s):

Xi Luo ◽

Xiang-mei Zhang ◽

Liu-song Wu ◽

Jindong Chen ◽

Yan Chen

Keyword(s):

Genetic Counseling ◽

Peripheral Blood ◽

Clinical Phenotype ◽

Globin Gene ◽

Clinical Manifestations ◽

Gene Mutations ◽

Guizhou Province ◽

Globin Genes ◽

Phenotype Correlation ◽

Chi Square

Abstract Background α-thalassemia is relatively endemic in Guizhou province of southwestern China. To predict the clinical manifestations of α-globin gene aberration for genetic counseling, we examined the prevalence of the α-globin triplication and the genotype–phenotype correlation in this subpopulation Methods A cohort of 7644 subjects was selected from nine ethnicities covering four regions in Guizhou province of China. Peripheral blood was collected from each participant for routine blood testing and hemoglobin electrophoresis. PCR-DNA sequencing and Gap-PCR were used to identify the thalassemia gene mutations. Chi-square tests and one-way analysis of variance (ANOVA) were used to statistically analyze the data. Results We found that the frequency of α-globin triplication in Guizhou province was 0.772% (59/7644). Genotypically, the αααanti4.2/αα accounted for 0.523% (40/7644), the αααanti3.7/αα for 0.235% (18/7644), and the αααanti3.7/–SEA for 0.013% (1/7644). The αααanti4.2/αα is more prevalent than the αααanti3.7/αα in Guizhou. In addition, the frequency of the HKαα/αα (that by GAP-PCR is like αααanti4.2/-α3.7) was 0.235% (18/7644). Ethnically, the Tujia group presented the highest prevalence (2.47%) of α-globin triplication. Geographically, the highest frequency of the α-globin triplication was identified in Qiannan region (2.23%). Of the triplicated α-globin cases, 5 coinherited with heterozygote β-thalassemia and presented various clinical manifestations of anemia. Conclusions These data will be used to update the Chinese triplicated α-globin thalassemia database and provide insights into the pathogenesis of thalassemia. These findings will be helpful for the diagnosis of thalassemia and future genetic counseling in those regions.

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A first case of hemoglobin Castilla [Beta 32(B14) Leu>Arg; HBB: c.98T>G] associated with [IVS-I-1 (G>A); HBB:c.92+1G>A] mutation found in a Syrian betathalassemia patient

Thalassemia Reports ◽

10.4081/thal.2020.8396 ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Ahmad Shoujaa ◽

Yasser Mukhalalaty ◽

Hossam Murad ◽

Faizeh Al-Quobaili

Keyword(s):

Molecular Analysis ◽

Clinical Case ◽

Globin Gene ◽

Thalassemia Major ◽

Beta Thalassemia ◽

Blood Transfusions ◽

Beta Globin ◽

First Report ◽

Beta Thalassemia Major ◽

First Case

Beta thalassemia (β-thal) is one of the most common worldwide inherited hemoglobinopathies. Proper identification and diagnosis of hemoglobin (Hb) variants provide a major challenge. In this report, we describe a 1-year-old boy, presented with the diagnosis of β-TM (beta thalassemia major), has received regular blood transfusions. The molecular analysis revealed the presence of rare Hb Castilla [Beta 32(B14) Leu>Arg; HBB: c.98T>G] variant associated with β0 [IVS-I-1 (G>A); AG^GTTGGT- >AGATTGGT beta0] (HBB:c.92+1G>A) Mutation in beta-globin (β-globin) gene. To our knowledge, this is the first report of Hb Castilla [Beta 32(B14) Leu>Arg] in ExonII of β-globin gene which were found in Syrian male proband. However, we should investigate abnormal hemoglobins in patients with beta thalassemia to determine whether they have involvement with β-thalassemia mutations in the clinical case of the patients or not.

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Hypomethylation of DNA derived from purified human erythroid cells correlates with gene activity of the beta-globin cluster

Blood ◽

10.1182/blood.v66.5.1202.1202 ◽

1985 ◽

Vol 66 (5) ◽

pp. 1202-1207 ◽

Cited By ~ 19

Author(s):

A Oppenheim ◽

Y Katzir ◽

E Fibach ◽

A Goldfarb ◽

E Rachmilewitz

Keyword(s):

Peripheral Blood ◽

Globin Gene ◽

Genetic Regulation ◽

Inverse Correlation ◽

Thalassemia Major ◽

Gene Activity ◽

Beta Thalassemia ◽

Globin Genes ◽

Beta Globin ◽

A Site

Abstract Analysis of methylation at the beta-globin gene cluster was carried out on DNA derived from nucleated RBCs (orthochromatic normoblasts) isolated from peripheral blood of patients with beta-thalassemia major or other congenital hemolytic anemia after splenectomy. A procedure to separate these normoblasts from the other nucleated cells of the peripheral blood was developed, providing us with a convenient source of DNA for investigating parameters related to human erythroid differentiation. Blood samples were obtained from six adult patients who express their gamma-globin genes at different levels. Inverse correlation between methylation and gene activity was consistently observed for five of the eight sites analyzed. A site 3′ to the beta gene was always unmethylated, two sites flanking the epsilon gene were always found to be methylated, and two sites 5′ to the two gamma genes, G gamma and A gamma, were hypomethylated in correlation with gamma gene activity of the individual patients. A site 5′ to the delta gene was unmethylated in normoblasts as well as in WBC. No apparent relation between hypomethylation and gene activity was observed for two additional sites. The results suggest that methylation at specific chromosomal locations participate in genetic regulation of the beta- like globin genes in humans.

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Use of oligonucleotide hybridization in the characterization of a beta zero-thalassemia gene (beta 37 TGG----TGA) in a Saudi Arabian family [published erratum appears in Blood 1986 Jul;68(1):323]

Blood ◽

10.1182/blood.v67.4.1185.bloodjournal6741185 ◽

1986 ◽

Vol 67 (4) ◽

pp. 1185-1188

Author(s):

CD Boehm ◽

CE Dowling ◽

PG Waber ◽

PJ Giardina ◽

HH Jr Kazazian

Keyword(s):

Genomic Dna ◽

Globin Gene ◽

Point Mutations ◽

Saudi Arabian ◽

Globin Genes ◽

Beta Globin ◽

Nucleotide Substitutions ◽

Exon 2 ◽

Oligonucleotide Hybridization

Analysis of restriction site polymorphisms in the beta-globin gene cluster of a Saudi Arabian female with beta zero-thalassemia demonstrated that both of her beta-globin genes were missing a nonpolymorphic AvaII site in exon 2. Examination of the normal nucleotide sequence surrounding this AvaII site revealed that either of two nucleotide substitutions, TGG----TAG or TGG----TGA, could produce a nonsense codon at codon 37 and eliminate the AvaII site. Consequently, two oligonucleotides (19-mers spanning codons 36 through 41 and containing either TAG or TGA at codon 37) were synthesized and hybridized against genomic DNA of the proband and her family. Specific hybridization with one of the oligomers demonstrated that the patient's beta o-thalassemia was the result of homozygosity for the TGG----TGA mutation at codon 37. In certain cases, oligonucleotide hybridization using genomic DNA may obviate the need for gene cloning and sequencing in the characterization of point mutations.

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SHORT GENE CONVERSIONS IN THE HUMAN FETAL GLOBIN GENE REGION: A BY-PRODUCT OF CHROMOSOME PAIRING DURING MEIOSIS?

Genetics ◽

10.1093/genetics/112.2.343 ◽

1986 ◽

Vol 112 (2) ◽

pp. 343-358

Author(s):

Patricia A Powers ◽

Oliver Smithies

Keyword(s):

Chromosome Pairing ◽

Dna Sequences ◽

Meiotic Chromosome ◽

Globin Gene ◽

Point Mutations ◽

Globin Genes ◽

Nucleotide Substitutions ◽

Sequence Comparisons ◽

The One ◽

Gene Conversions

ABSTRACT DNA sequence comparisons of a 1200-base pair (bp) region in 14 human fetal globin genes in seven linked pairs reveal 31 nucleotide substitutions at positions where the fetal globin genes, G y and A y, usually differ. In each case, the newly substituted nucleotide is identical to the one found at the same position in the linked nonallelic gene. Most of these nucleotide substitutions are clearly the result of gene conversions, but 11 could be the result of either very short gene conversions or of point mutations. The unexpectedly frequent occurrence of these short gene conversions suggests that they may be the relics of some normal interaction between homologous but nonallelic DNA sequences, and we discuss the possibility that they result from interactions occurring between homologous sequences during the process of meiotic chromosome pairing.

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A Deletion Of About 11kb Starting From 0.5 Kb 5’ To The β-Globin Gene Reactivates Foetal Haemoglobin and Leads To β Thalassemia Intermedia When Associated To a β-Zero Thalassemic Mutation

Blood ◽

10.1182/blood.v122.21.4702.4702 ◽

2013 ◽

Vol 122 (21) ◽

pp. 4702-4702

Author(s):

Photis Beris ◽

Tanguy Araud ◽

Lorella Clerici ◽

Anne-Pascale Grandjean ◽

Georgios Georgiou ◽

...

Keyword(s):

Conflicts Of Interest ◽

Globin Gene ◽

Thalassemia Major ◽

Globin Genes ◽

Beta Globin ◽

Thalassemia Intermedia ◽

Chromosome 11 ◽

Exact Size ◽

Hg19 Assembly

Background and Aims Thalassemia intermedia is characterized by severe but not transfusion dependent anemia secondary to seriously decreased production of hemoglobin (Hb). In the majority of cases, thalassemia intermedia concerns β-globin gene pathology. The molecular basis of thalassemia intermedia is heterogeneous. Here we describe a case of an adopted child native of Myanmar suffering from β-thalassemia intermedia which was proved to be secondary to a β-zero thalassemia associated with a not yet described deletional form of HPFH. Patient, Material and Methods Male child born in 1994 with Hb varying between 50 and 60 g/l, with Hb A2 of 2.1% and Hb F of 97.9%. No α-thalassemia or α-gene triplication was found. Sequencing of β-globin gene put in evidence the IVS-I-1 (G>T) or c.92+1G>T mutation in a “homozygous” state. This mutation is known to produce a β-zero thalassemia. The patient was treated with hydroxyurea as well as with erythropoietin and the Hb value was improved up to 86 g/l with normal leucocytes and platelets count. No transfusion was given during this period of treatment. Because the clinical phenotype was not typical for β-thalassemia major homozygous for the above mentioned mutation, we analyzed β-globin cluster looking for the presence of a possible deletion responsible for Hb F activation. Patient’s DNA was extracted with commercial columns from peripheral blood cells. Analysis of deletion in the beta cluster was performed by MLPA (Multiplex Ligation Probe Analysis) MRC-Holland P-102 probe mix. The data obtained were analyzed with the Coffyanalyzer software. The exact size of the deletion was determined by PCR with the primers: DelHBB_F: 5’-AGGCTTGGCTCCTGTTTAGT-3’, DelHBB_R: 5’-TGAGAG CTGCTGAGTTGTGT-3’ Results A heterozygous deletion in the beta-globin cluster has been detected by MLPA. This deletion was located between the coordinated 5,237,089 and 5,251,133 on chromosome 11 - (GRCh37/hg19 Assembly). The deletion starts about 0.5 kb 5’ upstream the HBB gene, between HBB and HBD genes, and ends about 9 kb downstream the 3’ end of HBB gene. The density of the MLPA probes is not sufficient to determinate the exact size of the deletion (between 14.3kb and 9.6 kb). A PCR using the primers DelHBB_F and DelHBB_R determined the size of this deletion to around 11kb. Conclusions Our molecular biology studies confirmed our clinical suspicion of association of HPFH with β-zero thalassemia. In fact, we put in evidence a not yet described (to our knowledge) 11kb deletion, which is very similar to the 12.6kb deletion of the Dutch β-zero thalassemia (Br J Haematol 67:369;1987) and to the Asian Indian 10.3kb deletion described by Craig et al (Br J Haematol 82:735;1992). Our deletion starts between δ and β-globin gene, almost 0.5 kb upstream of the β-gene, and goes about 9 kb downstream of 3’ end of the β-gene. The exact borders of the deletion are currently under investigation by PCR and appropriate primers. The pathophysiology of reactivation of γ-globin genes in our case is not yet known. We raise the following hypothesis: does this deletion bring an enhancer located 3’ to β-globin gene, close enough to the γ-genes, so that transcription of these genes continues after birth? In vitro studies in expression systems (constructs) are currently performed to elucidate the exact mechanism of γ-globin activation. Disclosures: No relevant conflicts of interest to declare.

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First observation of hemoglobin G-Norfolk in the Turkish population

Turkish Journal of Biochemistry ◽

10.1515/tjb-2019-0476 ◽

2020 ◽

Vol 46 (1) ◽

pp. 97-102 ◽

Cited By ~ 1

Author(s):

Hülya Ünal ◽

Aysenur Atay ◽

Muammer Yücel ◽

Figen Narin ◽

Serdar Ceylaner ◽

...

Keyword(s):

Sequence Analysis ◽

High Performance ◽

Globin Gene ◽

Molecular Genetic ◽

Gene Mutations ◽

Turkish Population ◽

Clinical Findings ◽

Beta Globin ◽

Globin Chains ◽

First Case

Abstract Objectives Hemoglobinopathies are inherited transition blood diseases associated with globin chains of the hemoglobin. However many mutations have been defined, there may be many of them not defined yet. We here report the first case of those mutations, named Hb G-Norfolk in Turkey. Case presentation A 15 years-old male patient with erythrocytosis was referred to our laboratory for the evaluation of hemoglobinopathy. In chromatographic analysis, an unidentified peak was observed. A similar identification for variant Hb could not be obtained from High-Performance Liquid Chromatography (HPLC) analyzer’s data library. No definitive diagnosis could also be made by different analyzer. Family screening and molecular genetic DNA sequence analysis were carried out. Conclusions Although there were not found any beta gene mutation of neither the patient nor his family, analyses of alpha genes A1 and A2 were performed and abnormal hemoglobines were detected for all of them. This change in the HbA2 gene was at codon85 GAC>AAC (Asp>Asn) in the heterozygous state, known as Hb G-Norfolk [HbA2:c256G>A p.Asp85Asn] based on HbVar database. Abnormal Hb bands detected by HPLC with clinical findings such as erythrocytosis or cyanosis should be investigated by sequence analysis to corroborate alpha and/or beta-globin gene mutations for avoiding misdiagnosis and misinterpretation.

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Prevalence and Clinical Phenotype of the Triplicated α-Globin Genes and its Ethnic and Geographical Distribution in Guizhou of China

10.21203/rs.3.rs-48399/v1 ◽

2020 ◽

Author(s):

Xi Luo ◽

Shi-ping Chen ◽

Xiang-mei Zhang ◽

Liu-song Wu ◽

Zhi-yu Peng ◽

...

Keyword(s):

Genetic Counseling ◽

Peripheral Blood ◽

Clinical Phenotype ◽

Globin Gene ◽

Clinical Manifestations ◽

Gene Mutations ◽

Guizhou Province ◽

Globin Genes ◽

Phenotype Correlation ◽

Chi Square

Abstract Background: Thalassemia is relatively epidemic in Guizhou province of southwestern China. To predict the clinical manifestations of α-globin gene aberration for genetic counseling, we examined the prevalence of the α-globin triplication and the genotype-phenotype correlation in this subpopulationMethods: A cohort of 7644 subjects was collected from nine ethnicities covering four regions in Guizhou province of China. Peripheral blood was collected from each participant for routine blood testing and hemoglobin electrophoresis. PCR-DNA sequencing and Gap-PCR were used to identify the thalassemia gene mutations. Chi-square tests and one-way analysis of variance (ANOVA) were used to statistically analyze the data. Results: We found that the frequency of α-globin triplication in Guizhou province was 0.759% (58/7644). Genotypically, the αααanti4.2/αα accounted for 0.523% (40/7644), the αααanti3.7/αα for 0.235% (18/7644). The αααanti4.2/αα is more prevalent than the αααanti3.7/αα in Guizhou. In addition, the frequency of the αααanti4.2/-α3.7 (HK αα) was 0.235% (18/7644), and the αααanti3.7/--SEA was 0.013% (1/7644). Ethnically, the Tujia group presented the highest prevalence (2.47%) of α-globin triplication. Geographically, the highest frequency of the α-globin triplication was identified in Qiannan region (2.23%). Of the triplicated α-globin cases, 5 coinherited with heterozygote β-thalassemia and presented various clinical manifestations of anemia. Conclusions: These data will be used to update the triplicated α-globin thalassemia database and provide insights into the pathogenesis of thalassemia. These findings will be helpful for the diagnosis of thalassemia and future genetic counseling in those regions.

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Genetic Analysis of Candidate Modifier Polymorphisms in β-Thalassemia/Hb E Patients.

Blood ◽

10.1182/blood.v104.11.3781.3781 ◽

2004 ◽

Vol 104 (11) ◽

pp. 3781-3781

Author(s):

Suthat Fucharoen ◽

Pranee Winichagoon ◽

Orapan Sripichai ◽

Thongperm Munkongdee ◽

Chutima Kumkhaek ◽

...

Keyword(s):

Genetic Factors ◽

Clinical Symptoms ◽

Globin Gene ◽

Thalassemia Major ◽

Globin Genes ◽

Nucleotide Polymorphisms ◽

Relative Contribution ◽

Modifying Factors ◽

Hb E ◽

Genes Encoding

Abstract β-Thalassemia/Hb E patients encompass a number of clinical severities, ranging from nearly asymptomatic to transfusion-dependent thalassemia major. This has been well documented, but the causes of the variability and the molecular basis of the interaction remain unexplained. In general any factor capable of reducing the degree of alpha-globin-beta-globin chain imbalance will result in a milder form of thalassemia. The major modifying factors demonstrated in the mild cases are coinheritance of mild β+-thalassemia and Hb E genes, coinheritance of α-thalassemia and increased production of Hb F. However, the fact that many patients who have seemingly identical genotypes, β0-thalassemia/Hb E, and do not have a detectable α-thalassemia or increased Hb F production still have mild clinical symptoms, while other patients have a very severe clinical condition similar to homozygous β0-thalassemia. This variation suggests that other unknown modifying genetic factors may contribute to severity of the disease. To assess the relative contribution of genetic factors in the variation of severity among β-thalassemia/Hb E patients, we conducted a prospective study searching for modifying factors in almost 1100 Thai/Chinese β0-thalassemia/Hb E patients from Thailand using an automated, chip-based platform based on mass spectrometry (Sequenom’s MassARRAYTM system). A map of ~80 single nucleotide polymorphisms (SNPs) has been constructed spanning more than 80 kb, including the locus control region (LCR) and all beta-like globin genes. These SNPs were identified through resequencing and from the public domain, including well-characterized restriction fragment length polymorphisms (RFLPs) used in prior haplotype studies. Included in this panel are assays for polymorphic sites reported to influence globin gene expression, specifically Gγ-Xmn I polymorphism and BP-1 binding site upstream of β-globin gene. Genotyping of other candidate modifier loci, including SNPs in genes encoding alpha hemoglobin stabilizing protein (AHSP), β-globin gene repressor BP-1 protein, erythropoietin (Epo), and transcription factors; GATA-1, EKLF, NF-E2, has been studied. To identify additional modifier loci, carefully selected patient sub-groups representing the extremes in disease severity either mild or severe have been selected for DNA pool construction to be used in a genomewide screen involving up to 100,000 validated gene-based SNPs. It is expected that this genomewide screen will yield important information on the role of candidate genes and may uncover the association of novel polymorphisms with severity heterogeneity in β-thalassemia/Hb E disease.

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Homozygous Expression of a Novel Senegalese-Type Partial Deletion of the Beta and Delta Genes Causes a Delta0 Beta+ Thalassemia.

Blood ◽

10.1182/blood.v120.21.2128.2128 ◽

2012 ◽

Vol 120 (21) ◽

pp. 2128-2128

Author(s):

Hernan Sabio ◽

Natalia Dixon ◽

Ferdane Kutlar ◽

Niren Patel ◽

Hanfang Zhang ◽

...

Keyword(s):

Gene Expression ◽

Dna Analysis ◽

Conflicts Of Interest ◽

Clinical Phenotype ◽

Globin Gene ◽

African Ancestry ◽

Beta Thalassemia ◽

Globin Genes ◽

Chain Imbalance ◽

Globin Gene Expression

Abstract Abstract 2128 Clinical phenotype in β-thalassemia syndromes is determined by the degree of chain imbalance. An increase in γ-globin production will compensate for the absent or deficient β-globin synthesis and will result in the amelioration of the chain imbalance, and hence an improvement in clinical features. The known genotypes of δβ-thalassemia are associated with an increase in Hb F production, which results in the amelioration of the clinical presentation. Most δβ-thalassemias result from deletions that remove the δ- and β-globin genes, (δβ)0 with a compensatory increase in γ-globin (Hb F) expression. We report an unusual case of homozygous δ0β+ thalassemia that provides interesting insights into increased γ-globin expression and the regulation of β-globin gene expression. An 8-year old boy of African ancestry presented with lifelong jaundice and pallor. He also experienced episodes of worsening symptoms. He exhibited frontal bossing, pale mucosa, scleral icterus, and moderate splenomegaly. He was known to have G6PD deficiency and was suspected of having additional erythrocyte pathology. The CBC revealed a Hb of 8.7, Hct 26.4, MCV 64.7, WBC 10,700, platelets 283,000, reticulocytes 2.2%, and total bilirubin 5.3. Hemoglobin analysis by HPLC and IEF revealed HbA 13.4%, Hb F 86.6%, and no additional components. Alpha thalassemia −3.7kb deletion was not detected. Globin chain analysis revealed α, β, Gγ and AγI chains. DNA analysis revealed a novel Senegalese-type deletion of the beta and delta genes, resulting in a delta0 beta+ thalassemia. The subject's parents who were both from the same small village in Niger had normal hematology values. Their hemoglobin analyses revealed Hb A 94. 8%, Hb A2 2.0%, Hb F 3.2% and Hb A 93.5%, Hb A2 2.1%, Hb F 4.5% in the father and mother, respectively. They were both heterozygous for the delta-beta deletion identified in their son. DNA analysis revealed a breakpoint in the delta gene at nucleotides 54755–54760 and a breakpoint in the beta gene at nucleotides 62153– 62158 [GenBank Ref ID: HUMHBB] with a 5 nucleotide “CAACA” bp region overlapping area. The subject, who is homozygous for the identified deletions, has a clinical phenotype of thalassemia intermedia. He has not yet required red cell transfusions. This is the first instance of a Senegalese-type deletion occurring in the homozygous state. The genotype provides insights into regulation of globin gene expression. While the ∼7 Kb deletion in the δβ-intergenic region may be responsible for the increased expression of the γ-globin gene similar to Hb Lepore deletions, the continued low level expression of the β-globin gene is most probably the result of the juxtaposition of the inefficient δ-globin promoter brought in the vicinity of the β-globin gene. Disclosures: No relevant conflicts of interest to declare.

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