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1.
The contribution of the DFNB1 locus to neurosensory deafness in a Caucasian population. 总被引:5,自引:1,他引:5 下载免费PDF全文
M A Maw D R Allen-Powell R J Goodey I A Stewart D J Nancarrow N K Hayward R J Gardner 《American journal of human genetics》1995,57(3):629-635
Classical studies have demonstrated genetic heterogeneity for nonsyndromic autosomal recessive congenital neurosensory deafness, with at least six loci postulated. Linkage analysis in two consanguineous Tunisian kindreds has demonstrated that one such deafness locus, DFNB1, maps near chromosome 13 markers D13S175, D13S143, and D13S115. We tested these markers for cosegregation with deafness in 18 New Zealand and 1 Australian nonconsanguineous kindreds, each of which included at least two siblings with nonsyndromic presumed congenital sensorineural deafness and that had a pedigree structure consistent with autosomal recessive inheritance. When all families were combined, a peak two-point lod score of 2.547 (theta = .1) was obtained for D13S175, 0.780 (theta = .2) for D13S143, and 0.664 (theta = .3) for D13S115. While there was no statistically significant evidence for heterogeneity at any of the three loci tested, nine families showed cosegregation of marker haplotypes with deafness. These observations suggest that the DFNB1 locus may make an important contribution to autosomal recessive neurosensory deafness in a Caucasian population. In the nine cosegregating families, phenotypic variation was observed both within sibships (in four families), which indicates that variable expressivity characterizes some genotypes at the DFNB1 locus, and between generations (in two families), which suggests allelic heterogeneity. 相似文献
2.
The connexins are the subunits of a family of proteins that form gap junctions, allowing ions and small molecules to move between adjacent cells. At least four connexins are expressed in the ear, and, although there are known mutations at >100 loci that can cause deafness, those involving DFNB1, in the interval 13q11-q12 containing the GJB2 and GJB6 genes coding for connexins 26 and 30, are the most frequent cause of recessive deafness in many populations. We have suggested that the combined effects of relaxed selection and linguistic homogamy can explain the high frequency of connexin deafness and may have doubled its incidence in this country during the past 200 years. In this report, we show by computer simulation that assortative mating, in fact, can accelerate dramatically the genetic response to relaxed selection. Along with the effects of gene drift and consanguinity, assortative mating also may have played a key role in the joint evolution and accelerated fixation of genes for speech after they first appeared in Homo sapiens 100,000-150,000 years ago. 相似文献
3.
Autosomal recessive nonsyndromic neurosensory deafness at DFNB1 not associated with the compound-heterozygous GJB2 (connexin 26) genotype M34T/167delT 总被引:2,自引:0,他引:2 下载免费PDF全文
Griffith AJ Chowdhry AA Kurima K Hood LJ Keats B Berlin CI Morell RJ Friedman TB 《American journal of human genetics》2000,67(3):745-749
Previous studies of the gap-junction beta-2 subunit gene GJB2 (connexin 26) have suggested that the 101T-->C (M34T) nucleotide substitution may be a mutant allele responsible for recessive deafness DFNB1. This hypothesis was consistent with observations of negligible intercellular coupling and gap-junction assembly of the M34T allele product expressed in Xenopus oocytes and HeLa cells. The results of our current study of a family cosegregating the 167delT allele of GJB2 and severe DFNB1 deafness demonstrate that this phenotype did not cosegregate with the compound-heterozygous genotype M34T/167delT. Since 167delT is a null allele of GJB2, this result indicates that the in vivo activity of a single M34T allele is not sufficiently reduced to cause the typical deafness phenotype associated with DFNB1. This observation raises the possibility that other GJB2 missense substitutions may not be recessive mutations that cause severe deafness and emphasizes the importance of observing cosegregation with deafness in large families to confirm that these missense alleles are mutant DFNB1 alleles. 相似文献
4.
Zafar Ali Masroor Ellahi Babar Jamil Ahmad Sajjad Ali Shah 《Indian journal of human genetics》2012,18(2):217-221
Families with at least 2 or more individuals having hereditary hearing loss were enrolled from different areas of Khyber Pakhtoonkhwa, mainly from district Peshawar. Detailed history was taken from each family to minimize the presence of other abnormalities and environmental causes for deafness. Families were questioned about skin pigmentation, hair pigmentation, and problems relating to balance, vision, night blindness, thyroid, kidneys, heart, and infectious diseases like meningitis, antibiotic usage, injury, and typhoid. The pedigree structures were based upon interviews with multiple family members, and pedigrees of the enrolled families were drawn using Cyrillic program (version 2.1). All families showed recessive mode of inheritance. I studied 8 families of these 10. For linkage analyses, studies for DFNB1 locus, 3 STR markers (D13S175, D13S292, and D13S787) were genotyped using polyacrylamide gel electrophoresis (PAGE) and haplotypes were constructed to determined, linkage with DFNB1 locus. From a total of 8 families, a single family-10 showed linkage to DFNB1 locus. 相似文献
5.
Tlili A Männikkö M Charfedine I Lahmar I Benzina Z Ben Amor M Driss N Ala-Kokko L Drira M Masmoudi S Ayadi H 《Human heredity》2005,60(3):123-128
Hereditary non-syndromic deafness is extremely heterogeneous. Autosomal recessive forms account for approximately 80% of genetic cases. Autosomal recessive non-syndromic sensorineural deafness segregating in a large consanguineous Tunisian family was mapped to chromosome 6p21.2-22.3. A maximum lod score of 5.36 at theta=0 was obtained for the polymorphic microsatellite marker IR2/IR4. Haplotype analysis defined a 16.5-Mb critical region between microsatellite markers D6S1602 and D6S1665. The screening of 3 candidate genes, COL11A2, BAK1 and TMHS, did not reveal any disease causing mutation, suggesting that this is a novel deafness locus, which has been named DFNB66. A search in the Human Cochlear EST Library for ESTs located in this critical interval allowed us to identify several candidates. Further investigations on these candidates are needed in order to identify the deafness-causing gene in this Tunisian family. 相似文献
6.
Contribution of interleukin 1beta and KM loci to alopecia areata 总被引:1,自引:0,他引:1
Alopecia areata is a common skin disease in which proinflammatory cytokines such as IL-1beta may play a pathogenic role. In this study, we examined the distribution of genotypes of an IL-1beta single base change polymorphism at position +3953 in patients with alopecia areata. The distribution of immunoglobulin kappa light chain (KM) genotypes was similarly examined. The data obtained showed that the IL-1beta and KM loci act cooperatively to significantly increase susceptibility to alopecia areata. 相似文献
7.
Ben Gacem R Hachana M Ziadi S Amara K Ksia F Mokni M Trimeche M 《Cancer epidemiology》2012,36(2):190-197
Objective: The aim of this study was to evaluate the contribution of the BRCA1 and BRCA2 promoter methylation in the pathogenesis of sporadic breast cancer in Tunisian patients. Methods: Breast carcinoma tissues (n = 117) and available paired normal breast tissues (n = 65) from Tunisian women who had no family history were investigated for the methylation status of BRCA1 and BRCA2 promoters using methylation-specific PCR. Breast specimens from women without carcinoma (16 fibroadenomas and 5 mastopathies) were used as control. Results: Hypermethylation of BRCA1 and BRCA2 promoters was detected respectively in 60.7% and 69.2% of the carcinoma tissues, and in only 7.7% and 4.6% of the paired normal breast tissues. None of the fibroadenomas and mastopathies showed hypermethylation. Correlations were found between BRCA1 and BRCA2 hypermethylation and decrease in their mRNA expression (p = 0.02 and p = 0.009, respectively). Moreover, BRCA1 methylation correlates with patients age (p = 0.01) and triple negative (ER?, PR?, HER2?) tumors (p = 0.01). Patients with methylated BRCA1 and/or BRCA2 had a significant prolonged survivals compared to those with unmethylated tumors (p = 0.002). Conclusion: Our results suggest an important role of BRCA1 and BRCA2 promoter methylation in breast cancer development in the Tunisian population. 相似文献
8.
Zinchenko RA Zinchenko SP Galkina VA El'chinova GI Nurbaev SD Poliakov AV Nekrasova NIu Ginter EK 《Genetika》2003,39(9):1275-1284
Summarized genetic epidemiological characteristics of nonsyndromic sensorineural deafness in six raions of Chuvash Republic (Cheboksary, Kanash, Morgaushi, Tsivil'sk, Mariinski Posad, and Alatyr') are presented. A total of 264,419 individuals were examined. Forty-five families (60 affected individuals) with autosomal recessive (AR) and 8 families (18 affected individuals) with autosomal dominant (AD) nonsyndromic sensorineural deafness (NSSD) were identified. The load of AD and AR NSSD in the raions examined was estimated. A correlation between the distribution of AR NSSD and genetic drift was demonstrated. Furthermore, the load of AR NSSD was substantially higher in the regions with higher differentiation level. The Spearman's correlation coefficient value was 0.87. Typing of the 35delG mutation in the gene for connexion 26 was carried out in 34 patients from 26 families with AR NSSD. Comparative estimates of the NSSD prevalence in a number of Russian populations were performed. 相似文献
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10.
Ahmed ZM Riazuddin S Aye S Ali RA Venselaar H Anwar S Belyantseva PP Qasim M Riazuddin S Friedman TB 《Human genetics》2008,124(3):215-223
Mutations of PCDH15, encoding protocadherin 15, can cause either combined hearing and vision impairment (type 1 Usher syndrome; USH1F) or nonsyndromic
deafness (DFNB23). Human PCDH15 is reported to be composed of 35 exons and encodes a variety of isoforms with 3–11 ectodomains (ECs), a transmembrane domain
and a carboxy-terminal cytoplasmic domain (CD). Building on these observations, we describe an updated gene structure that
has four additional exons of PCDH15 and isoforms that can be subdivided into four classes. Human PCDH15 encodes three alternative, evolutionarily conserved unique cytoplasmic domains (CD1, CD2 or CD3). Families ascertained on
the basis of prelingual hearing loss were screened for linkage of this phenotype to markers for PCDH15 on chromosome 10q21.1. In seven of twelve families segregating USH1, we identified homozygous mutant alleles (one missense,
one splice site, three nonsense and two deletion mutations) of which six are novel. One family was segregating nonsyndromic
deafness DFNB23 due to a homozygous missense mutation. To date, in our cohort of 557 Pakistani families, we have found 11
different PCDH15 mutations that account for deafness in 13 families. Molecular modeling provided mechanistic insight into the phenotypic variation
in severity of the PCDH15 missense mutations. We did not find pathogenic mutations in five of the twelve USH1 families linked to markers for USH1F, which suggest either the presence of mutations of yet additional undiscovered exons of PCDH15, mutations in the introns or regulatory elements of PCDH15, or an additional locus for type I USH at chromosome 10q21.1.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
11.
Linkage of congenital recessive deafness (gene DFNB10) to chromosome 21q22.3. 总被引:4,自引:0,他引:4 下载免费PDF全文
B. Bonn-Tamir A. L. DeStefano C. E. Briggs R. Adair B. Franklyn S. Weiss M. Korostishevsky M. Frydman C. T. Baldwin L. A. Farrer 《American journal of human genetics》1996,58(6):1254-1259
Deafness is a heterogeneous trait affecting approximately 1/1,000 newborns. Genetic linkage studies have already implicated more than a dozen distinct loci causing deafness. We conducted a genome search for linkage in a large Palestinian family segregating an autosomal recessive form of nonsyndromic deafness. Our results indicate that in this family the defective gene, DFNB10, is located in a 12-cM region near the telomere of chromosome 21. This genetic distance corresponds to <2.4 Mbp. Five marker loci typed from this region gave maximum LOD scores > or = to 3. Homozygosity of marker alleles was evident for only the most telomeric marker, D21S1259, suggesting that DFNB10 is closest to this locus. To our knowledge, this is the first evidence, at this location, for a gene that is involved in the development or maintenance of hearing. As candidate genes at these and other deafness loci are isolated and characterized, their roles in hearing will be revealed and may lead to development of mechanisms to prevent deafness. 相似文献
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14.
Characterization of the human and mouse unconventional myosin XV genes responsible for hereditary deafness DFNB3 and shaker 2. 总被引:6,自引:0,他引:6
Y Liang A Wang I A Belyantseva D W Anderson F J Probst T D Barber W Miller J W Touchman L Jin S L Sullivan J R Sellers S A Camper R V Lloyd B Kachar T B Friedman R A Fridell 《Genomics》1999,61(3):243-258
15.
Ahmed ZM Smith TN Riazuddin S Makishima T Ghosh M Bokhari S Menon PS Deshmukh D Griffith AJ Riazuddin S Friedman TB Wilcox ER 《Human genetics》2002,110(6):527-531
Human chromosome 11 harbors two Usher type I loci, USHIB and USHIC, which encode myosin VIIA and harmonin, respectively. The USHIC locus overlaps the reported critical interval for nonsyndromic deafness locus DFNB18. We found an IVS12+5G-->C mutation in the USHIC gene, which is associated with nonsyndromic recessive deafness ( DFNB18) segregating in the original family, S-11/12. No other disease-associated mutation was found in the other 27 exons or in the intron-exon boundaries, and the IVS12+5G-->C mutation was not present in 200 representative unaffected individuals ascertained from the same area of India. An exon-trapping assay with a construct harboring IVS12+5G-->C generated wildtype spliced mRNA having exons 11 and 12 and mRNA that skipped exon 12. We conclude that mutations of USHIC can cause both Usher syndrome type IC and nonsyndromic recessive deafness DFNB18. 相似文献
16.
Wilch E Zhu M Burkhart KB Regier M Elfenbein JL Fisher RA Friderici KH 《American journal of human genetics》2006,79(1):174-179
In a large kindred of German descent, we found a novel allele that segregates with deafness when present in trans with the 35delG allele of GJB2. Qualitative polymerase chain reaction-based allele-specific expression assays showed that expression of both GJB2 and GJB6 from the novel allele is dramatically reduced. This is the first evidence of a deafness-associated regulatory mutation of GJB2 and of potential coregulation of GJB2 and GJB6. 相似文献
17.
Analysis of two Arab families reveals additional support for a DFNB2 nonsyndromic phenotype of MYO7A
Salma Ben-Salem Heidi L. Rehm Patrick J. Willems Zakaria A. Tamimi Hammadi Ayadi Bassam R. Ali Lihadh Al-Gazali 《Molecular biology reports》2014,41(1):193-200
Variants in the head and tail domains of the MYO7A gene, encoding myosin VIIA, cause Usher syndrome type 1B (USH1B) and nonsyndromic deafness (DFNB2, DFNA11). In order to identify the genetic defect(s) underling profound deafness in two consanguineous Arab families living in UAE, we have sequenced a panel of 19 genes involved in Usher syndrome and nonsyndromic deafness in the index cases of the two families. This analysis revealed a novel homozygous insertion of AG (c.1952_1953insAG/p.C652fsX11) in exon 17 of the MYO7A gene in an Iraqi family, and a homozygous point mutation (c.5660C>T/p.P1887L) in exon 41 affecting the same gene in a large Palestinian family. Moreover, some individuals from the Palestinian family also harbored a novel heterozygous truncating variant (c.1267C>T/p.R423X) in the DFNB31 gene, which is involved in autosomal recessive nonsyndromic deafness type DFNB31 and Usher syndrome type II. Assuming an autosomal recessive mode of inheritance in the two inbred families, we conclude that the homozygous variants in the MYO7A gene are the disease-causing mutations in these families. Furthermore, given the absence of retinal disease in all affected patients examined, particularly a 28 year old patient, suggests that at least one family may segregate a DFNB2 presentation rather than USH1B. This finding further supports the premise that the MYO7A gene is responsible for two distinct diseases and gives evidence that the p.P1887L mutation in a homozygous state may be responsible for nonsyndromic hearing loss. 相似文献
18.
Allelic structure and distribution of 103 STR loci in a Southern Tunisian population 总被引:2,自引:0,他引:2
Genotypes of 103 short tandem repeat (STR) markers distributed at an average of 40 cM intervals throughout the genome were
determined for 40 individuals from the village of BirEl Hfai (BEH). This village of approximately 31.000 individuals is localized
in the south-west of Tunisia. The allele frequency distributions in BEH were compared with those obtained for individuals
in the CEPH (Centre d’Etude du Polymorphisme Humain) data using a Kolmo-gorov-Smirnov two-sample test. Fourteen out of the
103 markers (13.2%) showed significant differences (P<0.05) in distribution between the two populations. Population heterogeneity in BEH was indicated by an excess of observed
homozygosity deviations from Hardy-Weinberg equilibrium at 3 loci (P<0.0005). No evidence for genotypic disequilibrium was found for any of the marker pairs. This demonstrated that in spite
of a high inbreeding level in the population, few markers showed evidence for a different pattern of allelic distribution
compared to CEPH. 相似文献
19.
Ben-Selma W Ben-Kahla I Boukadida J Harizi H 《FEMS immunology and medical microbiology》2011,63(1):65-72
The P2X7 receptor has been found to be linked to an increased risk for tuberculosis in some populations. In this study, we investigate whether the P2X7 receptor plays a role in increasing susceptibility to tuberculosis in Tunisia. We examined two 1513A/C and -762T/C polymorphisms at the P2X7 receptor in 168 patients with pulmonary TB (pTB), 55 patients with extrapulmonary TB (epTB) and 150 blood donors from Tunisia. Genotyping of 1513A/C and -762T/C polymorphisms was performed in purified genomic DNA using PCR-restriction fragment length polymorphism and allele-specific PCR, respectively. The 1513C, CC and AC loss-of-function allele and genotypes were overrepresented in the epTB group compared with the control group (45% vs. 17%, P=10(-8) ; 24% vs. 4%, P=3 × 10(-7) ; 42% vs. 27%, P=10(-3) , respectively). Additionally, they were associated with 3.83-, 11.86- and 3.15-fold risks of developing this clinical tuberculosis form, respectively. No associations between the -762T/C polymorphism and tuberculosis disease, as well as disease anatomic location were observed. Collectively, our results suggest that the P2X7 1513A/C loss-of-function polymorphism may contribute to susceptibility to epTB in Tunisian populations. 相似文献
20.
Usher syndrome 1D and nonsyndromic autosomal recessive deafness DFNB12 are caused by allelic mutations of the novel cadherin-like gene CDH23 总被引:26,自引:0,他引:26 下载免费PDF全文
Bork JM Peters LM Riazuddin S Bernstein SL Ahmed ZM Ness SL Polomeno R Ramesh A Schloss M Srisailpathy CR Wayne S Bellman S Desmukh D Ahmed Z Khan SN Kaloustian VM Li XC Lalwani A Riazuddin S Bitner-Glindzicz M Nance WE Liu XZ Wistow G Smith RJ Griffith AJ Wilcox ER Friedman TB Morell RJ 《American journal of human genetics》2001,68(1):26-37