Towards a Long-Read Sequencing Approach for the Molecular Diagnosis of RPGR ORF15 Genetic Variants.
Gabriele BonettiWilliam CozzaAndrea BerniniJurgen KaftalliChiara MaresoFrancesca CristofoliMaria Chiara MedoriLeonardo ColomboSalvatore MartellaGiovanni StaurenghiAnna Paola SalvettiBenedetto FalsiniGiorgio PlacidiMarcella AttanasioGrazia PertileMario BengalaFrancesca BoselloAntonio PetraccaFabiana D'EspositoBenedetta ToschiPaolo LanzettaFederico RicciFrancesco ViolaGiuseppe MarcedduMatteo BertelliPublished in: International journal of molecular sciences (2023)
Sequencing of the low-complexity ORF15 exon of RPGR, a gene correlated with retinitis pigmentosa and cone dystrophy, is difficult to achieve with NGS and Sanger sequencing. False results could lead to the inaccurate annotation of genetic variants in dbSNP and ClinVar databases, tools on which HGMD and Ensembl rely, finally resulting in incorrect genetic variants interpretation. This paper aims to propose PacBio sequencing as a feasible method to correctly detect genetic variants in low-complexity regions, such as the ORF15 exon of RPGR, and interpret their pathogenicity by structural studies. Biological samples from 75 patients affected by retinitis pigmentosa or cone dystrophy were analyzed with NGS and repeated with PacBio. The results showed that NGS has a low coverage of the ORF15 region, while PacBio was able to sequence the region of interest and detect eight genetic variants, of which four are likely pathogenic. Furthermore, molecular modeling and dynamics of the RPGR Glu-Gly repeats binding to TTLL5 allowed for the structural evaluation of the variants, providing a way to predict their pathogenicity. Therefore, we propose PacBio sequencing as a standard procedure in diagnostic research for sequencing low-complexity regions such as RPGR ORF15 , aiding in the correct annotation of genetic variants in online databases.