Liang Y, Wang A, Probst F J, Arhya I N, Barber T D, Chen K S, Deshmukh D, Dolan D F, Hinnant J T, Carter L E, Jain P K, Lalwani A K, Li X C, Lupski J R, Moeljopawiro S, Morell R, Negrini C, Wilcox E R, Winata S, Camper S A, Friedman T B
Laboratory of Molecular Genetics, National Institute on Deafness and Other Communication Disorders, National Institutes of Health, RockvilleMaryland 20850, USA.
Am J Hum Genet. 1998 Apr;62(4):904-15. doi: 10.1086/301786.
The nonsyndromic congenital recessive deafness gene, DFNB3, first identified in Bengkala, Bali, was mapped to a approximately 12-cM interval on chromosome 17. New short tandem repeats (STRs) and additional DNA samples were used to identify recombinants that constrain the DFNB3 interval to less, similar6 cM on 17p11.2. Affected individuals from Bengkala and affected members of a family with hereditary deafness who were from Bila, a village neighboring Bengkala, were homozygous for the same alleles for six adjacent STRs in the DFNB3 region and were heterozygous for other distal markers, thus limiting DFNB3 to an approximately 3-cM interval. Nonsyndromic deafness segregating in two unrelated consanguineous Indian families, M21 and I-1924, were also linked to the DFNB3 region. Haplotype analysis indicates that the DFNB3 mutations in the three pedigrees most likely arose independently and suggests that DFNB3 makes a significant contribution to hereditary deafness worldwide. On the basis of conserved synteny, mouse deafness mutations shaker-2 (sh2) and sh2J are proposed as models of DFNB3. Genetic mapping has refined sh2 to a 0.6-cM interval of chromosome 11. Three homologous genes map within the sh2 and DFNB3 intervals, suggesting that sh2 is the homologue of DFNB3.
非综合征性先天性隐性耳聋基因DFNB3首次在巴厘岛的本卡拉被发现,它被定位到17号染色体上一个约12厘摩的区间。利用新的短串联重复序列(STRs)和额外的DNA样本,鉴定出重组体,将DFNB3区间缩小到17p11.2上小于6厘摩的范围。来自本卡拉的患病个体以及来自本卡拉附近村庄比拉的一个遗传性耳聋家族的患病成员,在DFNB3区域的六个相邻STRs上对于相同的等位基因是纯合的,而对于其他远端标记是杂合的,从而将DFNB3限制在一个约3厘摩的区间内。在两个不相关的近亲印度家族M21和I - 1924中分离的非综合征性耳聋也与DFNB3区域连锁。单倍型分析表明,这三个家系中的DFNB3突变很可能是独立发生的,这表明DFNB3对全球遗传性耳聋有重大贡献。基于保守的同线性,小鼠耳聋突变体shaker - 2(sh2)和sh2J被提议作为DFNB3的模型。遗传定位已将sh2精确定位到11号染色体上一个0.6厘摩的区间。在sh2和DFNB3区间内有三个同源基因定位,表明sh2是DFNB3的同源物。