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Analiza eksoma pri slovenskih otrocih z motnjami avtističnega spektra : doktorska disertacija
ID Rihar, Nika (Author), ID Dovč, Peter (Mentor) More about this mentor... This link opens in a new window, ID Kokalj Vokač, Nadja (Co-mentor)

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Abstract
Motnje avtističnega spektra (MAS) so skupina nevrorazvojnih stanj, pri katerih so zaradi velikega dednostnega deleža genetske študije pomemben del diagnostike. V okviru te raziskave smo analizirali eksom pri slovenskh preiskovancih z diagnozo MAS. Predhodno določene klinično pomembne različice smo še dodatno analizirali tako, da smo jih primerjali s podatki iz podatkovne zbirke denovo-db, kjer so zbrane vse de novo mutacije v povezavi z različnimi nevrorazvojnimi stanji. Ugotovili smo, da se de novo mutacije pri slovenskih preiskovancih z MAS pojavljajo v genih, ki so pogosteje navedeni tudi v bazi denovo-db. Nadalje smo z namenom odkrivanja novih različic v povezavi z MAS izvedli še analizo z orodjem Orval in analizo genske obremenitve z orodjem TRAPD. Z analizo z orodjem Orval smo v družini z več obolelimi z MAS odkrili dve drugačnosmiselni različici, v genih ADCY2 in XRCC3, ki naj bi bili v kombinaciji predvidoma patogeni. V sledeči analizi genske obremenitve pa smo odkrili še neopisano drugačnosmiselno različico v genu PPP2R5D, ki je predvidoma patogena. Postopek pri obeh analizah se je izkazal kot učinkovit način odkrivanja novih različic in ga zato predlagamo tudi drugim raziskovalcem. Končna analiza pogostih različic je pokazala, da ima večina preiskovancev z osnovno diagnozo MAS brez pridruženih kliničnih znakov višjo poligensko oceno tveganja (PRS) kot večina preiskovancev iz družin z enim obolelim članom s podobnimi kliničnimi znaki. Ti rezultati bodo v pomoč pri napredku razumevanja poligenskega tveganja pri preiskovancih z MAS.

Language:Slovenian
Keywords:humana genetika, eksomsko sekvenciranje, motnje avtističnega spektra, avtizem, genetski testi, medicinska genetika
Work type:Doctoral dissertation
Typology:2.28 - Critical Edition
Organization:BF - Biotechnical Faculty
Year:2024
PID:20.500.12556/RUL-153480 This link opens in a new window
COBISS.SI-ID:180726019 This link opens in a new window
Publication date in RUL:10.01.2024
Views:346
Downloads:42
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Secondary language

Language:English
Title:Analysis of exome in Slovenian children with autism spectrum disorders : doctoral dissertation
Abstract:
Autism spectrum disorders (ASD) are due to high heritability, a group of neurodevelopmental conditions in which genetic studies represent a significant diagnostic tool. Within the framework of this research project, we analyzed the exome in Slovenian subjects diagnosed with ASD. Clinically important sequence variants were further described. Variants that were found to have arisen de novo were further analyzed by comparing them with data from the denovo-db database, where all the de novo mutations associated with various neurodevelopmental diseases are collected. We discovered that de novo mutations in Slovenian subjects with ASD occur in genes that are also listed more often in the denovo-db database. Furthermore, intending to discover new variants in connection with ASD, we also performed an analysis with the Orval tool and a gene-based burden analysis with the TRAPD software. By analyzing rare variants in the autism multiplex family with the Orval tool, we discovered two different variants in the ADCY2 and XRCC3 genes, which in combination are expected to be pathogenic. In the following gene-based burden analysis, we discovered a new variant in the PPP2R5D gene, which is expected to be pathogenic. The procedure in both analyses proved suitable for discovering new variants, which we suggest to other researchers. The final analysis of frequent variants showed that the majority of subjects with a primary diagnosis of ASD without associated clinical signs had a higher polygenic risk score (PRS) than the majority of subjects from families with one affected member with similar clinical signs. These results will help advance the understanding of polygenic risk in subjects with ASD.

Keywords:human genetics, exome sequencing, autism spectrum disorders, autism, genetic tests, medical genetics

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