Next Generation Sequencing (NGS), has now become a very powerful tool for decoding variants of genes involved in pathogenesis of number of human disorders. One of the challenges of this method is to decipher the real pathogenic variants from a number of identified, not related to the disorder in analyzed case. Another issue is recognition of new phenotypes previously unrecognized but related to new variants combinations' in known genes. The other aspect is the HGMD or ClinVar mutation databases usage in data interpretation. The aim of this paper is to discuss pathogenicity of p.(Glu121Lys) missense mutation in the TOR1A gene previously described as dystonia causing variant. The patient diagnosed with typical Parkinson disease and positive family history was included into analysis. Also the internal whole exome sequencing (WES) database containing 600 subjects who has performed WES due to different causes was searched. All subjects had WES performed on SureSelect Human All Exon v.6 enrichment, Illumina NovaSeq 6000 platform, (annotations according to internal Institute Mother and Child's pipeline). The TOR1A p.(Glu121Lys) heterozygous mutation was revealed in 1 patient diagnosed with PD and 2 healthy subjects who has no dystonia symptoms. To conclude the TOR1A p.Glu121Lys variant should not be recognized as clearly pathogenic now.
Keywords: Differential diagnosis; Parkinson disease; Primary dystonia; TOR1A; WES.
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