BACKGROUND: Hearing loss (HL) is a common sensory disorder in humans characterized by extreme clinical and genetic heterogeneity. In recent years, next-generation sequencing (NGS) technologies have proven to be highly effective and powerful tools for population genetic studies of HL. Here, we analyzed clinical and molecular data from 21 Chinese deaf families who did not have hotspot mutations in the common deafness genes GJB2, SLC26A4, GJB3, and MT-RNR1. METHOD: Targeted next-generation sequencing (TGS) of 127 known deafness genes was performed in probands of 12 families, while whole-exome sequencing (WES) or trio-WES was used for the remaining nine families. RESULTS: Potential pathogenic mutations in a total of 12 deafness genes were identified in 13 probands; the mutations were observed in GJB2, CDH23, EDNRB, MYO15A, OTOA, OTOF, TBC1D24, SALL1, TMC1, TWNK, USH1C, and USH1G, with eight of the identified mutations being novel. Further, a copy number variant (CNV) was detected in one proband with heterozygous deletion of chromosome 4p16.3-4p15.32. Thus, the total diagnostic rate using NGS in our deafness patients reached 66.67% (14/21). CONCLUSIONS: These results expand the mutation spectrum of deafness-causing genes and provide support for the use of NGS detection technologies for routine molecular diagnosis in Chinese deaf populations.
BACKGROUND:Hearing loss (HL) is a common sensory disorder in humans characterized by extreme clinical and genetic heterogeneity. In recent years, next-generation sequencing (NGS) technologies have proven to be highly effective and powerful tools for population genetic studies of HL. Here, we analyzed clinical and molecular data from 21 Chinese deaf families who did not have hotspot mutations in the common deafness genes GJB2, SLC26A4, GJB3, and MT-RNR1. METHOD: Targeted next-generation sequencing (TGS) of 127 known deafness genes was performed in probands of 12 families, while whole-exome sequencing (WES) or trio-WES was used for the remaining nine families. RESULTS: Potential pathogenic mutations in a total of 12 deafness genes were identified in 13 probands; the mutations were observed in GJB2, CDH23, EDNRB, MYO15A, OTOA, OTOF, TBC1D24, SALL1, TMC1, TWNK, USH1C, and USH1G, with eight of the identified mutations being novel. Further, a copy number variant (CNV) was detected in one proband with heterozygous deletion of chromosome 4p16.3-4p15.32. Thus, the total diagnostic rate using NGS in our deafnesspatients reached 66.67% (14/21). CONCLUSIONS: These results expand the mutation spectrum of deafness-causing genes and provide support for the use of NGS detection technologies for routine molecular diagnosis in Chinese deaf populations.
Authors: Sue Richards; Nazneen Aziz; Sherri Bale; David Bick; Soma Das; Julie Gastier-Foster; Wayne W Grody; Madhuri Hegde; Elaine Lyon; Elaine Spector; Karl Voelkerding; Heidi L Rehm Journal: Genet Med Date: 2015-03-05 Impact factor: 8.822
Authors: Yi Jiang; Shasha Huang; Tao Deng; Lihua Wu; Juan Chen; Dongyang Kang; Xiufeng Xu; Ruiyu Li; Dongyi Han; Pu Dai Journal: PLoS One Date: 2015-08-07 Impact factor: 3.240
Authors: Dominika Oziębło; Marcin L Leja; Michal Lazniewski; Anna Sarosiak; Grażyna Tacikowska; Krzysztof Kochanek; Dariusz Plewczynski; Henryk Skarżyński; Monika Ołdak Journal: Sci Rep Date: 2021-05-13 Impact factor: 4.379