Molecular Genetics & Genomic Medicine (Apr 2024)

The clinical value of optical genome mapping in the rapid characterization of RB1 duplication and 15q23q24.2 triplication, for more appropriate prenatal genetic counselling

  • Malek Bouassida,
  • Denise Molina‐Gomes,
  • Fairouz Koraichi,
  • Bérénice Hervé,
  • Morgane Lhuilier,
  • Clémence Duvillier,
  • Jessica Le Gall,
  • Marion Gauthier‐Villars,
  • Valérie Serazin,
  • Thibaud Quibel,
  • Rodolphe Dard,
  • François Vialard

DOI
https://doi.org/10.1002/mgg3.2437
Journal volume & issue
Vol. 12, no. 4
pp. n/a – n/a

Abstract

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Abstract Background Despite recent advances in prenatal genetic diagnosis, medical geneticists still face considerable difficulty in interpreting the clinical outcome of copy‐number‐variant duplications and defining the mechanisms underlying the formation of certain chromosomal rearrangements. Optical genome mapping (OGM) is an emerging cytogenomic tool with proved ability to identify the full spectrum of cytogenetic aberrations. Methods Here, we report on the use of OGM in a prenatal diagnosis setting. Detailed breakpoint mapping was used to determine the relative orientations of triplicated and duplicated segments in two unrelated foetuses harbouring chromosomal aberrations: a de novo 15q23q24.2 triplication and a paternally inherited 13q14.2 duplication that overlapped partially with the RB1 gene. Results OGM enabled us to suggest a plausible mechanism for the triplication and confirmed that the RB1 duplication was direct oriented and in tandem. This enabled us to predict the pathogenic consequences, refine the prognosis and adapt the follow‐up and familial screening appropriately. Conclusion Along with an increase in diagnostic rates, OGM can rapidly highlight genotype–phenotype correlations, improve genetic counselling and significantly influence prenatal management.

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