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Αλέξανδρος Γ. Σφακιανάκης

Wednesday, November 11, 2020

Multiomic analysis elucidates Complex I deficiency caused by a deep intronic variant in NDUFB10

Alexandros G.Sfakianakis shared this article with you from Inoreader
Μέσω Human Mutation
Multiomic analysis elucidates Complex I deficiency caused by a deep intronic variant in NDUFB10

The diagnosis of Mendelian disorders following uninformative exome and genome sequencing remains a challenging and often unmet need. Through multiomic analysis we present data implicating a deep intronic variant in NDUFB10 as the cause of mitochondrial disease in two related individuals, enabled by RNA sequencing analysis and supported by proteomic analysis. This study highlights the importance of transcriptomic and proteomic analyses as complementary diagnostic tools in patients undergoing genome‐wide diagnostic evaluation.


Abstract

The diagnosis of Mendelian disorders following uninformative exome and genome sequencing remains a challenging and often unmet need. Following uninformative exome and genome sequencing of a family quartet including two siblings with suspected mitochondrial disorder, RNA sequencing (RNAseq) was pursued in one sibling. Long‐read amplicon sequencing was used to determine and quantify transcript structure. Immunoblotting studies and quantitative proteomics were performed to demonstrate functional impact. Differential expression analysis of RNAseq data identified significantly decreased expression of the mitochondrial OXPHOS Complex I subunit NDUFB10 associated with a cryptic exon in intron 1 of NDUFB10, that included an in‐frame stop codon. The cryptic exon contained a rare intronic variant that was homozygous in both affected siblings. Immunoblot and quantitative proteomic analysis of fibroblasts revealed decreased abundance of Complex I subunits, providing evidence of isolated Complex I deficiency. Through multiomic analysis we present data implicating a deep intronic variant in NDUFB10 as the cause of mitochondrial disease in two individuals, providing further support of the gene‐disease association. This study highlights the importance of transcriptomic and proteomic analyses as complementary diagnostic tools in patients undergoing genome‐wide diagnostic evaluation.

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