Ten Years of Routine α- and β-Globin Gene Sequencing in UK Hemoglobinopathy Referrals Reveals 60 Novel Mutations.

We review and report here the genotypes and phenotypes of 60 novel thalassemia and abnormal hemoglobin (Hb) mutations discovered following the adoption of routine DNA sequencing of both α- and β-globin genes for all UK hemoglobinopathy samples referred for molecular investigation. This screening strategy over the last 10 years has revealed a total of 11 new β chain variants, 15 α chain variants, 19 β-thalassemia (β-thal) mutations and 15 α(+)-thalassemia (α(+)-thal) mutations. The large number of new thalassemia alleles confirms the wide racial heterogeneity of mutations in the UK immigrant population.

Prenatal diagnosis of hemoglobinopathies by pyrosequencing: a more sensitive and rapid approach to fetal genotyping.

Prenatal diagnosis of the hemoglobinopathies by fetal DNA analysis is currently performed in most countries, either by DNA sequencing, restriction enzyme polymerase chain reaction (RE-PCR) or the amplification refractory mutation system (ARMS). These methods are time consuming and prolong the turnaround time for diagnosis. We here describe a method utilizing pyrosequencing for the prenatal diagnosis of 12 common nondeletional α- and β-globin gene mutations in the UK population.

A large deletion in the human alpha-globin cluster caused by a replication error is associated with an unexpectedly mild phenotype.

We have characterized a newly identified 16.6 kb deletion which removes a significant proportion of the human alpha-globin cluster including the psizeta1, alpha(D), psialpha1 and alpha2-globin genes but leaves the duplicated alpha1 gene intact. This complicated rearrangement results from a combination of slippage and strand switching at sites of microhomology during replication.

Hb Bart's in cord blood: an accurate indicator of alpha-thalassemia.

We quantified Hb Bart's (gamma4) levels by high performance liquid chromatography (HPLC) in 103 fresh cord blood samples from Homerton Hospital, East London, UK. The alpha-globin gene arrangement was determined by Southern blot hybridization and genomic sequence analysis of the alpha-globin genes. The cord blood Hb Bart's levels ranged from 0.