Gasmelseed Nagla M A, Schmidt Martin, Magzoub Mubarak M A, Macharia Muthure, Elmustafa Osman M, Ototo Benson, Winkler Enno, Ruge Gerd, Horstmann Rolf D, Meyer Christian G
Institute of Nuclear Medicine, Molecular Biology & Oncology, University of Gezira, Wad Medani, Sudan.
Bernhard Nocht Institute for Tropical Medicine, Hamburg, Germany.
Hum Mutat. 2004 Feb;23(2):206-207. doi: 10.1002/humu.9216.
A large proportion of non-syndromic autosomal recessive deafness (NSARD) in many populations is caused by variants of the GJB2 gene. Here, the frequency of GJB2 variants was studied in 406 and 183 apparently unrelated children from Kenya and Sudan, respectively, with mostly severe to profound non-syndromic deafness. Nine (2.2 %) Kenyan and 12 (6.6 %) of the Sudanese children only were carriers of variants within the coding sequence of the GJB2 gene. Variants in the 5'-adjacent region were detected in further 115 individuals. A total of 10 novel variants was recognized, among them four variants in the adjacent 5'-region of the GJB2 coding exon 2 (g.3318-6T>A, g.3318-15C>T, g.3318-34C>T, g.3318-35T>G), a 6 base-pair deletion (g.3455_3460del [p.Asp46_Gln48delinsGlu]), a variant leading to a stop codon (g.3512C>A [p.Tyr65X]), synonymous variants (g.3395C>T [p.Thr26], g.3503C>T [p.Asn62], g.3627A>C [p.Arg104]), and one non-synonymous variant (g.3816C>A [p.Val167Met]). In addition, the previously described variants g.3352delG (commonly designated 30delG or 35 delG), g.3426G>A [p.Val37Ile], g.3697G>A [p.Arg127His], g.3774G>A [p.Val153Ile], and g.3795G>A [p.Gly160Ser] were identified. With the exception of g.3318-34C>T and g.3352delG, all variants occurred heterozygously. For most of the variants identified in the Kenyan and Sudanese study population, a causative association with NSARD appears to be unlikely. Compared to many other ethnic groups, deafness-associated variants of the coding region of GJB2 are rare in Sudan and Kenya, suggesting a role of other genetic, or epigenetic factors as a cause for deafness in these countries.
在许多人群中,很大一部分非综合征性常染色体隐性聋(NSARD)是由GJB2基因的变异引起的。在此,分别对来自肯尼亚和苏丹的406名和183名明显无亲缘关系的儿童进行了GJB2变异频率的研究,这些儿童大多患有重度至极重度非综合征性耳聋。仅9名(2.2%)肯尼亚儿童和12名(6.6%)苏丹儿童是GJB2基因编码序列内变异的携带者。在另外115名个体中检测到了5'侧翼区域的变异。总共识别出10种新变异,其中4种位于GJB2编码外显子2的相邻5'区域(g.3318 - 6T>A、g.3318 - 15C>T、g.3318 - 34C>T、g.3318 - 35T>G),1种6个碱基对的缺失(g.3455_3460del [p.Asp46_Gln48delinsGlu]),1种导致终止密码子的变异(g.3512C>A [p.Tyr65X]),同义变异(g.3395C>T [p.Thr26]、g.3503C>T [p.Asn62]、g.3627A>C [p.Arg104]),以及1种非同义变异(g.3816C>A [p.Val167Met])。此外,还鉴定出了先前描述的变异g.3352delG(通常称为30delG或35 delG)、g.3426G>A [p.Val37Ile]、g.3697G>A [p.Arg127His]、g.3774G>A [p.Val153Ile]和g.3795G>A [p.Gly160Ser]。除g.3318 - 34C>T和g.3352delG外,所有变异均为杂合子。对于在肯尼亚和苏丹研究人群中鉴定出的大多数变异,似乎不太可能与NSARD存在因果关联。与许多其他种族群体相比,GJB2编码区与耳聋相关的变异在苏丹和肯尼亚较为罕见,这表明其他遗传或表观遗传因素在这些国家的耳聋病因中起作用。
