BACKGROUND: Intellectual disability (ID) is a neuro-developmental disorder which causes considerable socio-economic problems. Some ID individuals are also affected by ataxia, and the condition includes different mutations affecting several genes. METHODS: We used whole exome sequencing (WES) in combination with homozygosity mapping (HM) to identify the genetic defects in five consanguineous families among our cohort study, with two affected children with ID and ataxia as major clinical symptoms. RESULTS: We identified three novel candidate genes, RIPPLY1, MRPL10, SNX14, and a new mutation in known gene SURF1. All are autosomal genes, except RIPPLY1, which is located on the X chromosome. Two are housekeeping genes, implicated in transcription and translation regulation and intracellular trafficking, and two encode mitochondrial proteins. The pathogenesis of these variants was evaluated by mutation classification, bioinformatic methods, review of medical and biological relevance, co-segregation studies in the particular family, and a normal population study. CONCLUSIONS: Linkage analysis and exome sequencing of a small number of affected family members is a powerful new technique which can be used to decrease the number of candidate genes in heterogenic disorders such as ID, and may even identify the responsible gene(s).
BACKGROUND: Intellectual disability (ID) is a neuro-developmental disorder which causes considerable socio-economic problems. Some ID individuals are also affected by ataxia, and the condition includes different mutations affecting several genes. METHODS: We used whole exome sequencing (WES) in combination with homozygosity mapping (HM) to identify the genetic defects in five consanguineous families among our cohort study, with two affected children with ID and ataxia as major clinical symptoms. RESULTS: We identified three novel candidate genes, RIPPLY1, MRPL10, SNX14, and a new mutation in known gene SURF1. All are autosomal genes, except RIPPLY1, which is located on the X chromosome. Two are housekeeping genes, implicated in transcription and translation regulation and intracellular trafficking, and two encode mitochondrial proteins. The pathogenesis of these variants was evaluated by mutation classification, bioinformatic methods, review of medical and biological relevance, co-segregation studies in the particular family, and a normal population study. CONCLUSIONS: Linkage analysis and exome sequencing of a small number of affected family members is a powerful new technique which can be used to decrease the number of candidate genes in heterogenic disorders such as ID, and may even identify the responsible gene(s).
Authors: Dale Bryant; Yang Liu; Sanchari Datta; Hanaa Hariri; Marian Seda; Glenn Anderson; Emma Peskett; Charalambos Demetriou; Sergio Sousa; Dagan Jenkins; Peter Clayton; Maria Bitner-Glindzicz; Gudrun E Moore; W Mike Henne; Philip Stanier Journal: Hum Mol Genet Date: 2018-06-01 Impact factor: 6.150
Authors: Dale Bryant; Marian Seda; Emma Peskett; Constance Maurer; Gideon Pomeranz; Marcus Ghosh; Thomas A Hawkins; James Cleak; Sanchari Datta; Hanaa Hariri; Kaitlyn M Eckert; Daniyal J Jafree; Claire Walsh; Charalambos Demetriou; Miho Ishida; Cristina Alemán-Charlet; Letizia Vestito; Rimante Seselgyte; Jeffrey G McDonald; Maria Bitner-Glindzicz; Myriam Hemberger; Jason Rihel; Lydia Teboul; W Mike Henne; Dagan Jenkins; Gudrun E Moore; Philip Stanier Journal: Sci Rep Date: 2020-08-13 Impact factor: 4.379