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Alazami, Anas M.; Patel, Nisha; Shamseldin, Hanan E.; Anazi, Shamsa; Al-Dosari, Mohammed S.; Alzahrani, Fatema; Hijazi, Hadia; Alshammari, Muneera; Aldahmesh, Mohammed A.; Salih, Mustafa A.; Faqeih, Eissa; Alhashem, Amal; Bashiri, Fahad A.; Al-Owain, Mohammed; Kentab, Amal Y.; Sogaty, Sameera; Al Tala, Saeed; Temsah, Mohamad-Hani; Tulbah, Maha; Aljelaify, Rasha F.; Alshahwan, Saad A.; Seidahmed, Mohammed Zain; Alhadid, Adnan A.; Aldhalaan, Hesham; AlQallaf, Fatema; Kurdi, Wesam; Alfadhel, Majid; Babay, Zainab; Alsogheer, Mohammad; Kaya, Namik; Al-Hassnan, Zuhair N.; Abdel-Salam, Ghada M.H.; Al-Sannaa, Nouriya; Al Mutairi, Fuad; El Khashab, Heba Y.; Bohlega, Saeed; Jia, Xiaofei; Nguyen, Henry C.; Hammami, Rakad; Adly, Nouran; Mohamed, Jawahir Y.; Abdulwahab, Firdous; Ibrahim, Niema; Naim, Ewa A.; Al-Younes, Banan; Meyer, Brian F.; Hashem, Mais; Shaheen, Ranad; Xiong, Yong; Abouelhoda, Mohamed; Aldeeri, Abdulrahman A.; Monies, Dorota M.; Alkuraya, Fowzan S.
Cell reports (Cambridge), 01/2015, Volume: 10, Issue: 2Journal Article
Our knowledge of disease genes in neurological disorders is incomplete. With the aim of closing this gap, we performed whole-exome sequencing on 143 multiplex consanguineous families in whom known disease genes had been excluded by autozygosity mapping and candidate gene analysis. This prescreening step led to the identification of 69 recessive genes not previously associated with disease, of which 33 are here described (SPDL1, TUBA3E, INO80, NID1, TSEN15, DMBX1, CLHC1, C12orf4, WDR93, ST7, MATN4, SEC24D, PCDHB4, PTPN23, TAF6, TBCK, FAM177A1, KIAA1109, MTSS1L, XIRP1, KCTD3, CHAF1B, ARV1, ISCA2, PTRH2, GEMIN4, MYOCD, PDPR, DPH1, NUP107, TMEM92, EPB41L4A, and FAM120AOS). We also encountered instances in which the phenotype departed significantly from the established clinical presentation of a known disease gene. Overall, a likely causal mutation was identified in >73% of our cases. This study contributes to the global effort toward a full compendium of disease genes affecting brain function. Display omitted •Multiplex consanguineous families are rich sources for novel gene discovery•Prescreening these families for known disease genes accelerates gene discovery•33 novel candidate genes are reported in this study Using whole-exome sequencing on prescreened multiplex consanguineous families, Alazami et al. describe the identification of 33 novel candidate genes for various neurogenetic conditions. Such families are rich sources for novel gene discovery.
