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Whole-exome sequencing identifies a novel mutation in spermine synthase gene (SMS) associated with Snyder-Robinson Syndrome

Talal Jamil Qazi, Qiao Wu, Ailikemu Aierken, Daru Lu, Ihtisham Bukhari, Hafiz Muhammad Jafar Hussain, Jingmin Yang, Asif Mir, Hong Qing

2020BMC Medical Genetics21 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Loss of function mutations in the spermine synthase gene (SMS) have been reported to cause a rare X-linked intellectual disability known as Snyder-Robinson Syndrome (SRS). Besides intellectual disability, SRS is also characterized by reduced bone density, osteoporosis and facial dysmorphism. SRS phenotypes evolve with age from childhood to adulthood. METHODS: Whole exome sequencing was performed to know the causative gene/pathogenic variant. Later we confirmed the pathogenic variant through Sanger sequencing. Furthermore, we also performed the mutational analysis through HOPE SERVER and SWISS-MODEL. Also, radiographs were also obtained for affected individual to confirm the disease features. RESULTS: In this article, we report the first Pakistani family consisting of three patients with SRS and a novel missense pathogenic variant in the SMS gene (c.905 C > T p.(Ser302Leu)). In addition to the typical phenotypes, one patient presented with early-onset seizures. Clinical features, genetic and in-silico analysis linked the affected patients of the family with Snyder-Robinson and suggest that this novel mutation affects the spermine synthase activity. CONCLUSION: A novel missense variant in the SMS, c.905C > T p. (Ser302Leu), causing Snyder- Robinson Syndrome (SRS) is reported in three members of Pakistani Family.

Topics & Concepts

Missense mutationSanger sequencingExome sequencingGeneticsBiologyPhenotypeGeneExomeMutationHuman geneticsIn silicoIntellectual disabilityBioinformaticsPolyamine Metabolism and ApplicationsBiochemical and Molecular ResearchPhosphodiesterase function and regulation