Genetics background of ß-thalassemia (3.5 kb deletion) in Southern Thailand: Haplotype analysis using novel reverse dot blot hybridization.

ß-thalassemia (ß-thal) (3.5 kb deletion or NC_000011.10:g.5224302-5227791del3490bp) is a common mutation in southern Thailand. This study aimed to determine genetic diversity in subjects with ß-thal (3.5 kb deletion) alleles and to ascertain the origin of this mutation using haplotype and phylogenetic analysis. The study was carried out on members of the southern Thai population, including 45 normal individuals, 116 heterozygous ß-thal (3.5 kb deletion) and one homozygous ß-thal (3.5 kb deletion). The 5'-haplotype in ß-globin gene cluster was examined using newly developed reverse dot blot hybridization (RDB) and compared with polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP). The results showed 100% concordance between the haplotype patterns of these two methods. From a total of 324 chromosomes, nine haplotypes were segregated. Haplotype H2 (+ - - - -) was the predominant haplotype observed in all 118 ß-thal (3.5 kb deletion) chromosomes, which revealed a single origin. The phylogenetic tree demonstrated that ß-thal (3.5 kb deletion) has an older genetic defect in this region. Moreover, the developed RDB is simple, less time-consuming, inexpensive, and does not restriction enzyme digestion.

Molecular Spectrum of ß-Thalassemia Mutations in Central to Eastern Thailand.

The aim of this study was to determine the molecular spectrum of ß-thalassemia (ß-thal) mutations in eastern Thailand. We identified ß-thal mutations using allele specific-polymerase chain reaction (ASPCR) and direct DNA sequencing. We found 18 different ß-thal mutations in a total of 191 unrelated subjects. Six common ß-thal mutations comprised 86.91% of all the mutations, including codons 41/42 (-TTCT) (HBB: c.126_129delCTTT) (35.60%), codon 17 (A>T) (HBB: c.52A>T) (18.85%), -28 (A>G) (HBB: c.-78A>G) (15.71%), IVS-II-654 (C>T) (HBB: c.316-197C>T) (6.28%), IVS-I-1 (G>T) (HBB: c.92+1G>T) (5.76%) and codon 19 (A>G) (HBB:(c.59A>G) (4.71%). In addition, a novel 60 kb deletion in two unrelated cases was characterized and initially suspected to originate from eastern Thailand. Moreover, we demonstrated the molecular spectrum of recent ß-thal mutations in Thailand, and data from this study were compared with five reference laboratory centers in Thailand. This study is the first to identify the comprehensive molecular spectrum of ß-thal mutations in eastern Thailand, information that may be essential for screening, genetic counseling and prenatal diagnosis (PND) in this region.

A Genetic Variant Ameliorates ß-Thalassemia Severity by Epigenetic-Mediated Elevation of Human Fetal Hemoglobin Expression.

A delayed fetal-to-adult hemoglobin (Hb) switch ameliorates the severity of ß-thalassemia and sickle cell disease. The molecular mechanism underlying the epigenetic dysregulation of the switch is unclear. To explore the potential cis-variants responsible for the Hb switching, we systematically analyzed an 80-kb region spanning the ß-globin cluster using capture-based next-generation sequencing of 1142 Chinese ß-thalassemia persons and identified 31 fetal hemoglobin (HbF)-associated haplotypes of the selected 28 tag regulatory single-nucleotide polymorphisms (rSNPs) in seven linkage disequilibrium (LD) blocks. A Ly1 antibody reactive (LYAR)-binding motif disruptive rSNP rs368698783 (G/A) from LD block 5 in the proximal promoter of hemoglobin subunit gamma 1 (HBG1) was found to be a significant predictor for ß-thalassemia clinical severity by epigenetic-mediated variant-dependent HbF elevation. We found this rSNP accounted for 41.6% of ß-hemoglobinopathy individuals as an ameliorating factor in a total of 2,738 individuals from southern China and Thailand. We uncovered that the minor allele of the rSNP triggers the attenuation of LYAR and two repressive epigenetic regulators DNA methyltransferase 3 alpha (DNMT3A) and protein arginine methyltransferase 5 (PRMT5) from the HBG promoters, mediating allele-biased γ-globin elevation by facilitating demethylation of HBG core promoter CpG sites in erythroid progenitor cells from ß-thalassemia persons. The present study demonstrates that this common rSNP in the proximal Aγ-promoter is a major genetic modifier capable of ameliorating the severity of thalassemia major through the epigenetic-mediated regulation of the delayed fetal-to-adult Hb switch and provides potential targets for the treatment of ß-hemoglobinopathy.

A novel SNP rs11759328 on Rho GTPase-activating protein 18 gene is associated with the expression of Hb F in hemoglobin E-related disorders.

Hemoglobin (Hb) F has a modulatory effect on the clinical phenotype of ß-thalassemia disease. High expression of Hb F in Hb E-related disorders has been noted, but the mechanism is not well understood. We have examined the association of a novel SNP rs11759328 on ARHGAP 18 gene and other known modulators with a variability of Hb F in Hb E-related disorders. Genotyping of SNP rs11759328 (G/A) was performed based on high-resolution melting analysis. The rs11759328 (A allele) was shown to be significantly associated with Hb F levels (p < 0.05) in heterozygous and homozygous Hb E. High levels of Hb F in both heterozygous and homozygous Hb E were also found to be associated with SNPs in the study of other modifying genes including KLF 1 mutation, rs7482144 (Gγ-XmnI), rs4895441, rs9399137 of (HBS1L-MYB), and rs4671393 (BCL11A). Multivariate analysis showed that KLF1 mutation and SNP rs11759328 (GA) (ARHGAP18) modulated Hb F expression in heterozygous Hb E. For homozygous Hb E, this was found to be related to five modifying factors, i.e., KLF1 mutation, rs4895441 (GG), rs9399137 (CC), rs4671393 (AA), and rs4671393 (GA). These results indicate that a novel SNP rs11759328 is a genetically modifying factor associated with increased Hb F in Hb E disorder.

Molecular spectrum of Hb H disease and characterization of rare deletional α-thalassemia found in Thailand.

Hb H diseases with the clinical features of thalassemia are found in many parts of the world, including Southeast Asia and southern China. There are limitations in molecular data from the population of Thailand, which includes multiple ethnic groups. Here, we characterized the molecular basis of the disease among a large cohort from this region. A total of 479 unrelated Thai patients with Hb H disease were studied. Mutations of the α-globin gene were characterized by conventional gap-PCR and rare genotypes were identified by MLPA analysis and direct DNA sequencing. The molecular characterization showed five common Hb H genotypes (472/479; 98.54%), including three deletional types (-SEA/-α3.7; n = 312), (-SEA/-α4.2; n = 26), (-THAI/-α3.7; n = 1) and two non-deletional types (-SEA/αCSα; n = 131), (-SEA/αPakséα; n = 2). Herein, we firstly report a rare genotype of Hb H disease with (-SA/-α3.7; n = 1) that has not been documented in Thailand, and rare genotypes related to (-SEA/-α16.6; n = 1), and (-SEA/αQSα; n = 3) as well. The remaining two cases could not be characterized. The hematological parameters demonstrated that the clinical phenotype of non-deletional Hb H diseases is more severe than the deletional type of α+-thalassemia. The molecular spectrum of α-thalassemia is useful for prevention and thalassemia control and genetic counseling for couples at risk in this region.

Association Between Genetic Polymorphisms and Hb F Levels in Heterozygous ß-Thalassemia 3.5 kb Deletions.

Single nucleotide polymorphisms (SNPs) in several genetic modifying factors have been related to Hb F levels, including Gγ XmnI polymorphism, B-cell lymphoma/leukemia 11 A (BCL11A), HBS1L-MYB intergenic polymorphism (HMIP) and a mutation in the Krüppel-like factor 1 (KLF1). This study aimed to determine whether genetic variability of these modifying factors affects Hb F levels in heterozygous ß-thalassemia (ß-thal) 3.5 kb deletion (NC_000011.10: g.5224302-5227791del13490bp). A total of 111 ß-thal 3.5 kb deletion carriers with Hb F levels ranging from 0.9 to 18.4% was recruited for this study. Genotyping of SNPs including HBG2 rs7482144, HMIP rs4895441 and rs9399137, BCL11A rs4671393 and KLF1 rs2072596 was identified. Multiple regression analyses showed that only two SNPs (HMIP rs4895441 and rs9399137) influenced Hb F levels. Interestingly, a combination of these two SNPs was associated with higher Hb F levels. Our study is the first to demonstrate that the rs4895441, rs9399137 of HMIP are associated with elevated Hb F levels in the heterozygous ß-thal 3.5 kb deletion.

Strong Linkage of the Single Nucleotide Polymorphism rs77308790 with an α0-Thalassemia (- -SEA deletion) Allele and Application for Double-Check Diagnosis of Hb Bart's Hydrops Fetalis Syndrome in Thailand.

The α0-thalassemia (α0-thal) [- -SEA (Southeast Asian) deletion] is highly prevalent in Southeast Asia and South China. The linkage between the single nucleotide polymorphism (SNP) rs77308790 and the - -SEA deletion was reported in the Chinese population. This study reported the genotype of SNP rs77308790 using the high resolution melting (HRM) curve analysis in the Thai population and the application for double-checking diagnosis of Hb Bart's (γ4) hydrops fetalis syndrome. A total of 202 samples, including α0-thal carriers (- -SEA/αα) (n = 99) and wild-type (n = 103), was recruited. Minor allele frequency (MAF) of SNP rs77308790 (T allele) represented a significant difference (p<0.001) between carrier (- -SEA deletion) (MAF 0.455) and wild-type (MAF 0.039). The T allele of SNP rs77308790 showed a strong linkage with the - -SEA deletion allele [correlation coefficient between pairs of loci (D' = 1)] based on constructed random samples (CRSs) in Thais. Moreover, worldwide populations, based on the 1000Genomes database, also found the T allele to be less than 1.0%. For providing a double-checked diagnosis, two SNP (rs3760053, rs77308790) genotypes showed 100.0% concordance with a conventional gap-polymerase chain reaction (gap-PCR) method in nine families at-risk for Hb Bart's hydrops fetalis. The double-checked diagnosis based on the two SNPs (rs3760053, rs77308790) is suitable for implementation in routine diagnosis of Hb Bart's hydrops fetalis syndrome. Furthermore, our HRM analysis system can be amplified with a small amount of fetal DNA and could avoid allele dropouts.

Coinheritance of Hb A2-Melbourne (HBD: c.130G>A) and Hb E (HBB: c.79G>A) in Laos and Simultaneous High Resolution Melt Detection of Hb A2-Melbourne and Hb A2-Lampang (HBD: c.142G>A) in a Single Tube.

We report the molecular and hematological identifications of a Hb A2 variant [coinheritance of Hb A2-Melbourne (HBD: c.130G>A) and Hb E (HBB: c.79G>A)] found for the first time in the Lao People's Democratic Republic (PDR). The subject was a 29-year-old pregnant Laotian woman who was a foreign worker in Thailand and was diagnosed with thalassemia and hemoglobinopathies. Capillary electrophoresis (CE) demonstrated 1.6% of Hb A2, with a minor unknown peak at the initial Z1 zone (1.7%). Identification of abnormal hemoglobin (Hb) using direct DNA sequencing showed a genetic defect causing a δ-globin gene missense mutation at codon 43 (GAG>AAG) causing a glutamic acid to lysine substitution corresponding to Hb A2-Melbourne. The origin of Hb A2-Melbourne in Lao PDR may be similar to a case found in Thailand with the [+ - - - - + +] haplotype. We developed a method that could clearly detect Hb A2-Melbourne and Hb A2-Lampang (HBD: c.142G>A) mutations in a single tube using high resolution melt (HRM) analysis. The HRM analysis is a more effective method for rapid detection than conventional polymerase chain reaction (PCR), as there is no need for a post-PCR step, and no exposure to ethidium bromide. This new method would be a useful addition for the first investigation of a suspected Hb A2 variant in the routine molecular setting.

Nine known and five novel mutations in the erythroid transcription factor KLF1 gene and phenotypic expression of fetal hemoglobin in hemoglobin E disorder.

Hemoglobin E is the most common Hb variant found in South East Asia. Variation of Hb F expression in Hb E syndrome is associated with several genetic modifiers. We report several single nucleotide polymorphisms (SNPs), including nine known and five novel mutations of the Krüppel-like factor 1 (KLF1; an erythroid specific transcription factor) gene and determine their associations with phenotypic expression of Hb F in Hb E disorders. KLF1 mutations were examined using high resolution melting (HRM) assay and DNA sequencing in 575 homozygous Hb E, 278 heterozygous Hb E and 100 normal subjects. Fourteen mutations were mostly observed in subjects with elevated Hb F, including nine known mutations (G176AfsX179, T334R, R238H, -154 (C>T), A298P, S270W, R301H, -148 (G>A) and G335R and five novel mutations (Q217X, Q223X, Y290_S293del, K307N, and M358I). None of them, but the -148 (G>A), were observed in normal controls to have Hb F <1%. Combined KLF1 mutations with other SNPs including (G)γ-XmnI, BCL11A and HBS1L-MYB were associated with higher Hb F levels. KLF1 is therefore an important genetic factor associated with increased Hb F and in combination with other modifying factors could explain the phenotypic variation of Hb F expression in this common hemoglobinopathy.

Krüppel-like factor 1 mutations and expression of hemoglobins F and A2 in homozygous hemoglobin E syndrome.

The basis for variability of hemoglobin (Hb) F in homozygous Hb E disease is not well understood. We have examined multiple mutations of the Krüppel-like factor 1 (KLF1) gene; an erythroid specific transcription factor and determined their associations with Hbs F and A2 expression in homozygous Hb E. Four KLF1 mutations including G176AfsX179, T334R, R238H, and -154 (C-T) were screened using specific PCR assays on 461 subjects with homozygous Hb E and 100 normal controls. None of these four mutations were observed in 100 normal controls. Among 461 subjects with homozygous Hb E, 306 had high (≥5 %) and 155 had low (<5 %) Hb F. DNA analysis identified the KLF1 mutations in 35 cases of the former group with high Hb F, including the G176AfsX179 mutation (17/306 = 5.6 %), T334R mutation (9/306 = 2.9 %), -154 (C-T) mutation (7/306 = 2.3 %), and R328H mutation (2/306 = 0.7 %). Only two subjects in the latter group with low Hb F carried the G176AfsX179 and -154 (C-T) mutations. Significant higher Hb A2 level was observed in those of homozygous Hb E with the G176AfsX179 mutation as compared to those without KLF1 mutations. These results indicate that KLF1 is among the genetic factors associated with increased Hbs F and A2, and in combination with other factors could explain the variabilities of these Hb expression in Hb E syndrome.

A large cohort of Hb H disease in northeast Thailand: A molecular revisited, diverse genetic interactions and identification of a novel mutation.

BACKGROUND AND AIMS: To update the molecular characteristics of α-thalassemia in northeast Thailand, the molecular basis and genetic interactions of Hb H disease were examined in a large cohort of patients. MATERIALS AND METHODS: A study was done on 1,170 subjects with Hb H disease and various genetic interactions encountered during 2009-2023. Hb and DNA analyses were carried out. RESULTS: As many as 40 genotypes with several known, previously undescribed, and novel mutations were observed. These included 698 subjects (59.8 %) of Hb H disease, 357 (30.6 %) with EABart's disease, 63 (5.4 %) with EEBart's disease, 18 (1.7 %) with abnormal Hbs, 17 (1.5 %) with ß-thalassemia, and 4 (0.4 %) with EFBart's or EFABart's disease. The molecular basis of 13 subjects (1.1 %) remains unknown. The α0-thalassemia included --SEA (n = 1,139, 97.4 %) and --THAI (n = 21, 1.8 %). Two rare mutations were identified in 3 subjects (0.3 %) with --SA and --CR deletions. For α+-thalassemia, -α3.7 kb del (n = 626, 53.5 %), Hb Constant Spring (n = 415, 35.5 %), -α4.2 kb del (n = 44, 3.8 %), Hb Paksé (n = 36, 3.1 %), and Hb Q-Thailand (n = 19, 1.6 %), were detected. Ten rarer α+-thalassemia were identified, including a novel mutation, namely the Hb Chumphae (HBA2:c.32T>A). The Hb H-Lansing-Ramathibodi, Hb H-Jax, and Hb H-Chumphae are hitherto undescribed in this region. PCR-based diagnostic methods for these α-thalassemia defects were described. CONCLUSIONS: This study confirms the diverse heterogeneity and genetic interactions causing Hb H disease in northeast Thailand. The results should prove useful for laboratory diagnosis and genetic counseling of this genetic disorder in the region.

Molecular epidemiology and hematological profiles of hemoglobin variants in southern Thailand.

Data on hemoglobin (Hb) variants in southern Thailand are lacking. This study aimed to reassess the frequency of Hb variants and the clinical aspects of compound heterozygous Hb variant with other hemoglobinopathies. We enrolled 13,391 participants from ten provinces in southern Thailand during 2015-2022. Hb analysis was performed using capillary electrophoresis, and mutations in the HBA and HBB genes were identified using PCR or DNA sequencing. Hb variants were identified in 337 (2.5%) unrelated subjects. Nine ß-chain variants, namely Hb Malay (76.9%), Hb C (10.1%), Hb D-Punjab (2.9%), Hb G-Makassar (2.3%), Hb Dhonburi (2.3%), Hb Tak (1.4%), Hb J-Bangkok (1.4%), Hb New York (0.3%), and Hb Hope (0.3%), and four α-chain variants-Hb G-Georgia (HBA1) (0.9%), Hb G-Georgia (HBA2) (0.3%), Hb Q-Thailand (0.6%), and Hb St. Luke's-Thailand (0.3%)-were identified. The southern population exhibited a distinct spectrum of Hb variants compared to that observed in the populations from other areas. Several compound heterozygous genotypes were also identified. Combining Hb Malay with Hb E or high Hb F determinants did not require a blood transfusion. This study provides essential information for genetic counseling in thalassemia prevention and control programs in this region.

Revisiting and updating molecular epidemiology of α-thalassemia mutations in Thailand using MLPA and new multiplex gap-PCR for nine α-thalassemia deletion.

α-thalassemia is an inherited blood disorder that is most frequently found in Southeast Asian populations. In Thailand, molecular characterization can diagnose most patients with α-thalassemia; however, several atypical patients are also observed in routine analyses. Here, we characterized α-thalassemia mutations among 137 Hemoglobin H (Hb H) disease patients and three fetuses of Hb Bart's hydrops, a fatal clinical phenotype of α-thalassemia. Specifically, we performed multiplex ligation-dependent probe amplification (MLPA) followed by direct DNA sequencing. We noticed common genotypes in 129 patients and eight patients had rare Hb H disease caused by compound heterozygous α0-thalassemia (--CR or --SA deletion) with α+-thalassemia (-α3.7/-α4.2/αConstant Springα). Furthermore, two affected fetuses had the --SA/--SEA and one had the --CR/--SEA genotypes. Next, we developed and validated a new multiplex gap-PCR and applied this method to 844 subjects with microcytic red blood cells (RBCs) from various parts of Thailand. The frequency of heterozygous α0-thalassemia was dominated by --SEA 363/844 (43%), followed by --THAI 3/844 (0.4%), --SA 2/844 (0.2%), and --CR 2/844 (0.2%) mutations. These findings suggest that aforementioned four mutations should be routinely applied to increase the effectiveness of diagnosis and genetic counseling in this region.

Molecular basis of a high Hb A2/Hb Fß-thalassemia trait: a retrospective analysis, genotype-phenotype interaction, diagnostic implication, and identification of a novel interaction with α-globin gene triplication.

Background: ß 0-thalassemia deletion removing 5´ß-globin promoter usually presents phenotype with high hemoglobin (Hb) A2 and Hb F levels. We report the molecular characteristics and phenotype-genotype correlation in a large cohort of the ß 0-thalassemia with 3.4 kb deletion. Methods: A total of 148 subjects, including 127 heterozygotes, 20 Hb E-ß-thalassemia patients, and a double heterozygote with α-globin gene triplication, were recruited. Hb and DNA analysis were performed to identify thalassemia mutations and four high Hb F single nucleotide polymorphisms (SNPs) including four base pair deletion (-AGCA) at A γ-globin promoter, rs5006884 on OR51B6 gene, -158 G γ-XmnI, BCL11A binding motifs (TGGTCA) between 3´A γ-globin gene and 5´Î´-globin gene. Results: It was found that heterozygous ß 0-thalassemia and Hb E-ß 0-thalassemia with 3.4 kb deletion had significantly higher Hb, hematocrit, mean corpuscular volume, mean corpuscular hemoglobin and Hb F values as compared with those with other mutations. Co-inheritance of heterozygous ß 0-thalassemia with 3.4 kb deletion and α-thalassemia was associated with even higher MCV and MCH values. The Hb E-ß 0-thalassemia patients carried a non-transfusion-dependent thalassemia phenotype with an average Hb of around 10 g/dL without blood transfusion. A hitherto undescribed double heterozygous ß 0-thalassemia with 3.4 kb deletion and α-globin gene triplication presented as a plain ß-thalassemia trait. Most of the subjects had wild-type sequences for the four high Hb F SNPs examined. No significant difference in Hb F was observed between those of subjects with and without these SNPs. Removal of the 5´ß-globin promoter may likely be responsible for this unusual phenotype. Conclusions: The results indicate that ß 0-thalassemia with 3.4 kb deletion is a mild ß-thalassemia allele. This information should be provided at genetic counseling and prenatal thalassemia diagnosis.

A large cohort of deletional high hemoglobin F determinants in Thailand: A molecular revisited and identification of a novel mutation.

BACKGROUND AND AIMS: High hemoglobin F determinants can be classified into hereditary persistence of fetal hemoglobin (HPFH) and δß-thalassemia with different phenotype. We report the molecular basis and hematological features in a large cohort of deletional high Hb F determinants in Thailand. MATERIALS AND METHODS: Subjects (n = 28,177) encountered during 2015-2022 were reviewed, and those with phenotypically suspected of having high Hb F determinants were selected. Combined PCR, multiplex ligation-dependent probe amplification, next-generation sequencing, and DNA sequencing were used to identify the mutations. RESULTS: Among 28,177 subjects investigated, 300 (1.06 %) were found to carry deletional high Hb F determinants in a total of 302 alleles, including heterozygote, compound heterozygote with ß-hemoglobinopathies, and homozygote. DNA analysis identified eight different DNA deletions, including δß0-thalassemia (12.6 kb deletion) (73.8 %), HPFH-6 (14.9 %), Indian deletion-inversion Aγδß0-thalassemia (3.6 %), Thai deletion-inversion-insertion Aγδß0-thalassemia (3.0 %), SEA-HPFH (3.0 %), Chinese Aγδß0-thalassemia (1.0 %), Thai δß0-thalassemia (11.3 kb deletion) (0.3 %), and a novel δß0-thalassemia (137.1 kb deletion) (0.3 %). In addition, three novel genetic interactions, including Chinese Aγδß0-thalassemia/Hb E, δß0-thalassemia/Indian deletion-inversion Aγδß0-thalassemia, and homozygous δß0-thalassemia were found. Hematological features and Hb analysis results of 20 different genotypes were recorded. Multiplex gap-PCR assays for detection of these genetic determinants were described. CONCLUSIONS: Deletional high Hb F determinants are common and heterogeneous in Thailand. Data on the prevalence, molecular spectrum, phenotypic expression, and complex interactions of these genetic determinants should prove useful in the study and a prevention and control program of hemoglobinopathies in the region.

Genetic Background Studies of Eight Common Beta Thalassemia Mutations in Thailand Using ß-Globin Gene Haplotype and Phylogenetic Analysis.

Single nucleotide polymorphisms are informative for haplotype analysis associated with genetic background and clinical linkage studies of ß-thalassemia mutations. Hence, the aim of this study was to investigate five polymorphisms (codon 2 (C/T), IVS II-16 (C/G), IVS II-74 (G/T), IVS II-81 (C/T) and the Hinf I (T/A) polymorphism) on the ß-globin gene, related to eight common ß-thalassemia mutations in Thailand, including NT-28 (A > G), codon 17 (A > T), codon 19 (A > G), HbE (G > A), IVS I-1 (G > C), IVS I-5 (G > C), codon 41/42 (-TTCT) and IVS II-654 (C > T). The strongest LD (100%) between the ß-thalassemia mutation allele and all five SNPs was found in NT-28 (A > G), codon 17 (A > T) and codon 19 (A > G). In the haplotype analysis, we found three haplotypes (H1, H2 and H7) related to Hb E, whereas we only found two haplotypes related to codon 41/42 (-TTCT) (H1, H3) and IVS I-1 (G > C) (H3, H4). Of interest is the finding relating to a single haplotype in the remaining ß-thalassemia mutations. Furthermore, phylogenetic tree analysis revealed three clusters of these common ß-thalassemia mutations in the Thai population and enabled us to determine the origin of these mutations. Here, we present the results of our study, including four intragenic polymorphisms and the finding that the Hinf I polymorphism could be informative in genetic background analysis, population studies and for predicting the severity of ß-thalassemia in Thailand.

Rapid Molecular Detection for Differentiation of Homozygous HbE and ß0-Thalassemia/HbE in Samples Related With HbE >80% and Variable HbF Levels.

OBJECTIVE: To validate a novel rapid molecular testing method for differentiation of homozygous hemoglobin (Hb)E and HbE/ß 0-thalassemia genotypes using multiplex melt curve combined with high-resolution melt (HRM) analysis in a single test tube. METHODS: All 10 genotypes contained (ß N/ß N; n = 95), (ß N/ß 3.5-kb; n = 71), (ß N/ß 45-kb; n = 28), (ß N/ß E; n = 10), (ß E/ß 3.5-kb; n = 6), (ß E/ß 45-kb; n = 4), (ß E/ß 41/42; n = 28), (ß E/ß 17; n = 9), (ß E/ß IVSI#1; n = 6), and (ß E/ß E; n = 76) were recruited for validation. A proposed strategy for rapid differentiation of ß 0-thalassemia/HbE disease and homozygous Hb E in specimens with HbE greater than 80% and variable HbF levels was demonstrated. RESULTS: In the validation method, all genotypes showed 100% concordance, compared with the conventional reverse dot blot (RDB) and gap-polymerase chain reaction (PCR) methods. CONCLUSIONS: Our newly developed method could be useful in routine laboratory settings. The method is rapid, simple, and cost effective; does not require a post-PCR step; and can be applied in routine settings.

Rapid molecular diagnostics of large deletional ß0-thalassemia (3.5 kb and 45 kb) using colorimetric LAMP in various thalassemia genotypes.

BACKGROUND: ß-thalassemia is an inherited disorder that is reported worldwide. Two common ß0-thalassemia mutations (3.5 kb and 45 kb deletions) are prevalent in Southeast Asia and Thailand. Identification of these defects is essential to population screening and prenatal diagnosis. We aimed to develop colorimetric LAMP based on a phenol red indicator and validate it on various thalassemia genotypes. METHOD: Colorimetric LAMP assays for detecting ß0-thalassemia 3.5- and 45-kb deletions were developed and validated on 254 routine clinical samples. The results of the assays could be interpreted by the naked eye and compared with the gold standard gap-PCR. RESULTS: A total of 254 samples related to seven phenotypes and 27 different genotype groups showed 100% concordance between the colorimetric LAMP assays and gap-PCR for detecting ß0-thalassemia (3.5- and 45-kb deletions). The sensitivity, specificity, NPV, and PPV were calculated as 100% for both ß0-thalassemia 3.5- and 45-kb deletion detection. The comparison of the usefulness of colorimetric LAMP assays and conventional methods was demonstrated in this study. CONCLUSIONS: The developed colorimetric LAMP assays are rapid, simple, and highly cost effective and can be interpreted by the naked eye. These assays should be applied for screening deletional ß0-thalassemia in routine settings or small community hospitals in remote areas where thalassemia is highly heterogeneous.