Objectives To review the identified deafness genes related to nonsyndromic hearing loss (NSHL) and summarize their expressions and functions in the cochlea and to introduce the current studies of molecular genetics o...Objectives To review the identified deafness genes related to nonsyndromic hearing loss (NSHL) and summarize their expressions and functions in the cochlea and to introduce the current studies of molecular genetics on NSHL in China Methods The presented data are based on a review of the literature as well as the author's experience with NSHL and communications with other researchers in China over the past 3 years Results Currently, 23 deafness genes related to NSHL have been cloned and identified Some genes are associated with both NSHL and syndromic hearing loss (SHL), in both dominant and recessive deafness Deafness genes have a highly specific expression pattern in the inner ear Some functional categories are starting to emerge from a characterization of deafness genes There are interacting genes in the genetic background that influence the extent of hearing impairment The GJB3 gene, which is associated with high frequency hearing impairment, was cloned in a Chinese laboratory Mutations in some genes, such as GJB2 and mitochondrial 12S rRNA, have been screened in Chinese patients with NSHL Mapping new deafness gene loci as well as identifying new genes and their functions is an active area of study in China Conclusions It is challenging for us to continue identifying new deafness genes and analyze gene functions By identifying genes responsible for monogenic hearing impairment, more insight may be gained into the molecular process of hearing and the pathology of hearing loss展开更多
Background: The molecular genetic research showed the association between X-linked bearing loss and mutations in POU3F4. This research aimed to identify a POU3F4 mutation in a nonsyndromic X-linked recessive hearing ...Background: The molecular genetic research showed the association between X-linked bearing loss and mutations in POU3F4. This research aimed to identify a POU3F4 mutation in a nonsyndromic X-linked recessive hearing loss family. Methods: A series of clinical evaluations including medical history, otologic examinations, l:amily history, audiologic testing, and a high-resolution computed tomography scan were performed t'or each patient. Bidirectional sequencing was carried out for all polymerase chain reaction products or'the samples. Moreover, 834 controls with normal hearing were also tested. Results: The pedigree showed X-linkage recessive inheritance pattern, and pathogenic mutation (c.499C〉T) was identified in the proband and his family member, which led to a premature termination prior to the entire POU domains. This mutation co-segregated with bearing loss in this family. No mutation ofPOU3F4 gene was found in 834 controls. Conclusions: A nonsense mutation is identified in a family displaying the pedigree consistent with X-linked recessive pattern in POU3F4 gene. In addition, we may provide molecular diagnosis and genetic counseling for this family.展开更多
文摘Objectives To review the identified deafness genes related to nonsyndromic hearing loss (NSHL) and summarize their expressions and functions in the cochlea and to introduce the current studies of molecular genetics on NSHL in China Methods The presented data are based on a review of the literature as well as the author's experience with NSHL and communications with other researchers in China over the past 3 years Results Currently, 23 deafness genes related to NSHL have been cloned and identified Some genes are associated with both NSHL and syndromic hearing loss (SHL), in both dominant and recessive deafness Deafness genes have a highly specific expression pattern in the inner ear Some functional categories are starting to emerge from a characterization of deafness genes There are interacting genes in the genetic background that influence the extent of hearing impairment The GJB3 gene, which is associated with high frequency hearing impairment, was cloned in a Chinese laboratory Mutations in some genes, such as GJB2 and mitochondrial 12S rRNA, have been screened in Chinese patients with NSHL Mapping new deafness gene loci as well as identifying new genes and their functions is an active area of study in China Conclusions It is challenging for us to continue identifying new deafness genes and analyze gene functions By identifying genes responsible for monogenic hearing impairment, more insight may be gained into the molecular process of hearing and the pathology of hearing loss
基金This work was supported by the grants from the National Key Basic Research Program of China (No.2014CB943001), the National Natural Science Foundation of China (No. 81120108009 and No. 81530032), and the China Postdoctoral Science Foundation (No.2015M572690).
文摘Background: The molecular genetic research showed the association between X-linked bearing loss and mutations in POU3F4. This research aimed to identify a POU3F4 mutation in a nonsyndromic X-linked recessive hearing loss family. Methods: A series of clinical evaluations including medical history, otologic examinations, l:amily history, audiologic testing, and a high-resolution computed tomography scan were performed t'or each patient. Bidirectional sequencing was carried out for all polymerase chain reaction products or'the samples. Moreover, 834 controls with normal hearing were also tested. Results: The pedigree showed X-linkage recessive inheritance pattern, and pathogenic mutation (c.499C〉T) was identified in the proband and his family member, which led to a premature termination prior to the entire POU domains. This mutation co-segregated with bearing loss in this family. No mutation ofPOU3F4 gene was found in 834 controls. Conclusions: A nonsense mutation is identified in a family displaying the pedigree consistent with X-linked recessive pattern in POU3F4 gene. In addition, we may provide molecular diagnosis and genetic counseling for this family.
