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Título: | Molecular dissection of structural variations involved in antithrombin deficiency |
Autor: | Morena-Barrio, Belén de la; Orlando, Christelle; Sanchis-Juan, Alba; García, Juan L. CSIC ORCID CVN ; Padilla, Jose; Morena-Barrio, M. E. de la; Puruunen, Marija; Stouffs, Katrien; Cifuentes, R.; Borràs, Nina; Bravo-Pérez, Carlos; Benito, Rocío; Cuenca-Guardiola, Javier; Vicente, Vicente; Vidal, Francisco; Hernández, Jesús M. CSIC ORCID ; Ouwehand, Willem; Jochmans, Kristin; Corral, J. | Fecha de publicación: | may-2022 | Editor: | Elsevier | Citación: | Journal of Molecular Diagnostics 24(5): 462-475 (2022) | Resumen: | Inherited antithrombin deficiency, the most severe form of thrombophilia, is predominantly caused by variants in SERPINC1. Few causal structural variants have been described, usually detected by multiplex ligation-dependent probe amplification or cytogenetic arrays, which only define the gain or loss and the approximate size and location. This study has done a complete dissection of the structural variants affecting SERPINC1 of 39 unrelated patients with antithrombin deficiency using multiplex ligation-dependent probe amplification, comparative genome hybridization array, long-range PCR, and whole genome nanopore sequencing. Structural variants, in all cases only affecting one allele, were deleterious and caused a severe type I deficiency. Most defects were deletions affecting exons of SERPINC1 (82.1%), but the whole cohort was heterogeneous, as tandem duplications, deletion of introns, or retrotransposon insertions were also detected. Their size was also variable, ranging from 193 bp to 8 Mb, and in 54% of the cases involved neighboring genes. All but two structural variants had repetitive elements and/or microhomologies in their breakpoints, suggesting a common mechanism of formation. This study also suggested regions recurrently involved in structural variants causing antithrombin deficiency and found three structural variants with a founder effect: the insertion of a retrotransposon, duplication of exon 6, and a 20-gene deletion. Finally, nanopore sequencing was determined to be the most appropriate method to identify and characterize all structural variants at nucleotide level, independently of their size or type. | Versión del editor: | http://dx.doi.org/10.1016/j.jmoldx.2022.01.009 | URI: | http://hdl.handle.net/10261/282955 | DOI: | 10.1016/j.jmoldx.2022.01.009 | Identificadores: | doi: 10.1016/j.jmoldx.2022.01.009 issn: 1525-1578 |
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