Erschienen in:
01.11.2012 | Original Article
Molecular mechanisms of a novel β-thalassaemia mutation due to the duplication of tetranucleotide ‘AGCT’ at the junction IVS-II/exon 3
verfasst von:
Gennaro Musollino, Gabriella Mastrolonardo, Romeo Prezioso, Leonilde Pagano, Paola Primignani, Clementina Carestia, Giuseppina Lacerra
Erschienen in:
Annals of Hematology
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Ausgabe 11/2012
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Abstract
We report a new β-thalassaemia allele detected in a young Italian woman, suffering with mild non-haemolytic anaemia (Hb < 10 g/dL) and not showing Hb variant or Heinz bodies. The allele is characterised by duplication of tetranucleotide ‘AG/CT’ (+1344/+1347) including the invariant dinucleotide ‘AG’ of IVS-II acceptor splicing site and the first two nucleotides of codon 105. β-Globin complementary DNA (cDNA) sequencing did not reveal any mutation and qualitative analysis of the reverse transcription PCR reaction showed that only the proximal 3′ splice site present in the duplicated gene is used giving race to an anomalous messenger RNA (mRNA) present in trace (1.5 %) because, most probably, rapidly degraded. In the anomalous mRNA, the insertion causes a frameshift and synthesis of an abnormal truncated β-chain (139 residues), unable to form Hb variant because of the severe conformational changes. The duplication might have arisen from secondary structures generated by quasi-palindromic sequence 5′-CCCA(C)AG/CT(CC)TGGG-3′. Restriction fragment length polymorphism analysis for the β-globin haplotype and familiar segregation analysis indicated that the mutant β-globin gene was associated with the haplotype V.