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Biallelic TOR1A mutations cause severe arthrogryposis: A case requiring reverse phenotyping.
European Journal of Medical Genetics 2018 September 22
Heterozygous mutations in TOR1A gene are known to be responsible for DYT1 dystonia with incomplete penetrance. Autosomal recessive TOR1A disease is a very recently described syndrome characterized by severe arthrogryposis, developmental delay, strabismus and tremor. A 2 month-old boy with severe arthrogryposis and developmental delay was referred to our department for genetic counseling. Dystonic movements were observed on physical examination. Whole exome sequencing revealed a homozygous nonsense variant in exon 5 of TOR1A (c.862C > T, p.Arg288*). Our results expand the phenotypic and mutational spectrum of biallelic TOR1A disease, while emphasizing the importance of reverse phenotyping in the diagnosis of rare genetic disorders.
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