Maria Roberta Tremolaterra scite author profile

Maria Roberta Tremolaterra

3Publications

71Citation Statements Received

28Citation Statements Given

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Affiliations

Ceinge Biotecnologie Avanzate (Italy), University of Naples Federico II

Publications

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Analysis of Dystrophin Gene Deletions Indicates that the Hinge III Region of the Protein Correlates with Disease Severity

et al. 2005

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We have investigated the frequency of deletions in the dystrophin gene in 108 unrelated Duchenne and Becker muscular dystrophy (DMD/BMD) patients from southern Italy (DMD, n. 47; BMD, n. 61) and identified 89 deletions. The de novo mutation rate (about 30%), and the preferentially maternal origin of deletional mutations, analysed in families in which the maternal grandparents were available or their haplotypes could be unequivocally reconstructed, are in agreement with data reported for other populations. The correlation between BMD phenotype and type of deletion suggests that, in the distal rod domain region, the deletion size may not be as crucial as the particular combination of missing exons. In fact, we provide immunohistochemical and clinical evidence that in-frame deletion of the hinge III region in the distal rod domain results in a milder phenotype as compared with shorter deletions that do not include the hinge III region. Our data obtained in BMD patients, by confirming inferences arising from minigene transfection experiments in mdx mice, represent an important contribution to gene therapy approaches.

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Analysis of Dystrophin Gene Deletions Indicates that the Hinge III Region of the Protein Correlates with Disease Severity

Carsana

Frisso

Tremolaterra

et al. 2005

Annals of Human Genetics

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SummaryWe have investigated the frequency of deletions in the dystrophin gene in 108 unrelated Duchenne and Becker muscular dystrophy (DMD/BMD) patients from southern Italy (DMD, n. 47; BMD, n. 61) and identified 89 deletions. The de novo mutation rate (about 30%), and the preferentially maternal origin of deletional mutations, analysed in families in which the maternal grandparents were available or their haplotypes could be unequivocally reconstructed, are in agreement with data reported for other populations. The correlation between BMD phenotype and type of deletion suggests that, in the distal rod domain region, the deletion size may not be as crucial as the particular combination of missing exons. In fact, we provide immunohistochemical and clinical evidence that inframe deletion of the hinge III region in the distal rod domain results in a milder phenotype as compared with shorter deletions that do not include the hinge III region. Our data obtained in BMD patients, by confirming inferences arising from minigene transfection experiments in mdx mice, represent an important contribution to gene therapy approaches.

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Precise mapping of 17 deletion breakpoints within the central hotspot deletion region (introns 50 and 51) of the DMD gene

et al. 2017

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Exon deletions in the human DMD gene, which encodes the dystrophin protein, are the molecular defect in 50-70% of cases of Duchenne/Becker muscular dystrophies. Deletions are preferentially clustered in the 5' (exons 2-20) and the central (exons 45-53) region of DMD, likely because local DNA structure predisposes to specific breakage or recombination events. Notably, innovative therapeutic strategies may rescue dystrophin function by homology-based specific targeting of sequences within the central DMD hot spot deletion region. To further study molecular mechanisms that generate such frequent genome variations and to identify residual intronic sequences, we sequenced 17 deletion breakpoints within introns 50 and 51 of DMD and analyzed the surrounding genomic architecture. There was no breakpoint clustering within the introns nor extensive homology between sequences adjacent to each junction. However, at or near the breakpoint, we found microhomology, short tandem repeats, interspersed repeat elements and short sequence stretches that predispose to DNA deletion or bending. Identification of such structural elements contributes to elucidate general mechanisms generating deletion within the DMD gene. Moreover, precise mapping of deletion breakpoints and localization of repeated elements are of interest, because residual intronic sequences may be targeted by therapeutic strategies based on genome editing correction.

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