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A Genome Wide Linkage Scan For Cleft Lip And Palate And Dental Anomalies, A. Vieira, T. Mchenry, Sandra Daack-Hirsch, J. Murray, M. Marazita
A Genome Wide Linkage Scan For Cleft Lip And Palate And Dental Anomalies, A. Vieira, T. Mchenry, Sandra Daack-Hirsch, J. Murray, M. Marazita
Sandra Daack-Hirsch
We revisited 46 families with two or more siblings affected with an orofacial cleft that participated in previous genome wide studies and collected complete dental information. Genotypes from 392 microsatellite markers at 10 cM intervals were reanalyzed. We carried out four sets of genome wide analyses. First, we ran the analysis solely on the cleft status. Second, we assigned to any dental anomaly (tooth agenesis, supernumerary teeth, and microdontia) an affection status, and repeated the analysis. Third, we ran only the 19 families where the proband had a cleft with no dental anomalies. Finally, we ran only the 27 families …
A Novel Homeobox Gene Pitx3 Is Mutated In Families With Autosomal-Dominant Cataracts And Asmd, E. Semina, R. Ferrell, H. Mintz-Hittner, P. Bitoun, W. Alward, R. Reiter, C. Funkhauser, Sandra Daack-Hirsch, J. Murray
A Novel Homeobox Gene Pitx3 Is Mutated In Families With Autosomal-Dominant Cataracts And Asmd, E. Semina, R. Ferrell, H. Mintz-Hittner, P. Bitoun, W. Alward, R. Reiter, C. Funkhauser, Sandra Daack-Hirsch, J. Murray
Sandra Daack-Hirsch
We report here the identification of a new human homeobox gene, PITX3, and its involvement in anterior segment mesenchymal dysgenesis (ASMD) and congenital cataracts in humans. The PITX3 gene is the human homologue of the mouse Pitx3 gene and is a member of the RIEG/PITX homeobox gene family. The protein encoded by PITX3 shows 99% amino-acid identity to the mouse protein, with 100% identity in the homeodomain and approximately 70% overall identity to other members of this family. We mapped the human PITX3 gene to 10q25 using a radiation-hybrid panel. A collection of 80 DNA samples from individuals with various …
Microdeletions At Chromosome Bands 1q32-Q41 As A Cause Of Van Der Woude Syndrome, B. Schutte, A. Basart, Y. Watanabe, J. Laffin, K. Coppage, B. Bjork, Sandra Daack-Hirsch, S. Patil, M. Dixon, J. Murray
Microdeletions At Chromosome Bands 1q32-Q41 As A Cause Of Van Der Woude Syndrome, B. Schutte, A. Basart, Y. Watanabe, J. Laffin, K. Coppage, B. Bjork, Sandra Daack-Hirsch, S. Patil, M. Dixon, J. Murray
Sandra Daack-Hirsch
Van der Woude syndrome (VWS) is an autosomal dominant disorder comprising cleft lip and/or cleft palate and lip pits. We reported previously a family whose underlying mutation is a 500-800 kb deletion localized to chromosome bands 1q32-q41 [Sander et al., 1994: Hum Mol Genet 3:576-578]. Along with cleft lip/palate and lip pits, affected relatives exhibit developmental delays, suggesting that the function of a gene nearby may also be disrupted. To further localize the VWS gene we searched for other deletions that cause VWS. An allele loss assay was performed using a novel highly polymorphic marker, D1S3753. From a panel of …
Candidate Gene/Loci Studies In Cleft Lip/Palate And Dental Anomalies Finds Novel Susceptibility Genes For Clefts, A. Vieira, T. Mchenry, Sandra Daack-Hirsch, J. Murray, M. Marazita
Candidate Gene/Loci Studies In Cleft Lip/Palate And Dental Anomalies Finds Novel Susceptibility Genes For Clefts, A. Vieira, T. Mchenry, Sandra Daack-Hirsch, J. Murray, M. Marazita
Sandra Daack-Hirsch
PURPOSE: We revisited 42 families with two or more cleft-affected siblings who participated in previous studies. Complete dental information was collected to test the hypothesis that dental anomalies are part of the cleft phenotype spectrum, and can provide new opportunities for identification of cleft susceptibility genes. METHODS: Genotypes from 1489 single nucleotide polymorphism markers located in 150 candidate genes/loci were reanalyzed. Two sets of association analyses were carried out. First, we ran the analysis solely on the cleft status. Second, we assigned affection to any cleft or dental anomaly (tooth agenesis, supernumerary teeth, and microdontia) and repeated the analysis. RESULTS: …
A Genome-Wide Linkage Scan For Cleft Lip And Cleft Palate Identifies A Novel Locus On 8p11-23, B. Riley, R. Schultz, M. Cooper, T. Goldstein-Mchenry, Sandra Daack-Hirsch, K. Lee, E. Dragan, A. Vieira, A. Lidral, M. Marazita, J. Murray
A Genome-Wide Linkage Scan For Cleft Lip And Cleft Palate Identifies A Novel Locus On 8p11-23, B. Riley, R. Schultz, M. Cooper, T. Goldstein-Mchenry, Sandra Daack-Hirsch, K. Lee, E. Dragan, A. Vieira, A. Lidral, M. Marazita, J. Murray
Sandra Daack-Hirsch
Isolated or nonsyndromic cleft lip and palate (NS CLP) is a complex disorder resulting from multiple genetic and environmental factors. NS CLP has a birth prevalence of 1 per 500 in the Philippines where large families provide an opportunity for gene localization. Genotyping of 392 microsatellite repeat markers at 10 cM intervals over the genome was performed by the Center for Inherited Disease Research (CIDR) on 220 Filipino families with 567 affected and 1,109 unaffected family members genotyped. Among the most statistically significant results from analysis of the genome-wide scan data was a 20 cM region at 8p11-23 in which …
Characterization Of A Novel Gene Disrupted By A Balanced Chromosomal Translocation T(2;19)(Q11.2;Q13.3) In A Family With Cleft Lip And Palate, K. Yoshiura, J. Machida, Sandra Daack-Hirsch, S. Patil, L. Ashworth, J. Hecht, J. Murray
Characterization Of A Novel Gene Disrupted By A Balanced Chromosomal Translocation T(2;19)(Q11.2;Q13.3) In A Family With Cleft Lip And Palate, K. Yoshiura, J. Machida, Sandra Daack-Hirsch, S. Patil, L. Ashworth, J. Hecht, J. Murray
Sandra Daack-Hirsch
Cleft lip with or without cleft palate is a common birth defect that is genetically complex. The nonsyndromic forms have been studied genetically using linkage and candidate-gene association studies with only partial success in defining the loci responsible for orofacial clefting. Loci for nonsyndromic cases have been suggested on 2p13, 4q31, 6p24, 17q21-q24, and 19q13.2. Recently, we identified a family in which cleft lip and palate segregated in two of three generations with a balanced chromosomal translocation t(2;19)(q11. 2;q13.3). We used a positional-cloning strategy to identify a novel gene disrupted by the translocation on chromosome 19. Eight rare (q 0.01) …
X-Chromosome Inactivation Patterns In Monozygotic Twins And Sib Pairs Discordant For Nonsyndromic Cleft Lip And/Or Palate, J. Kimani, M. Shi, Sandra Daack-Hirsch, K. Christensen, D. Moretti-Ferreira, M. Marazita, L. Field, J. Canady, J. Murray
X-Chromosome Inactivation Patterns In Monozygotic Twins And Sib Pairs Discordant For Nonsyndromic Cleft Lip And/Or Palate, J. Kimani, M. Shi, Sandra Daack-Hirsch, K. Christensen, D. Moretti-Ferreira, M. Marazita, L. Field, J. Canady, J. Murray
Sandra Daack-Hirsch
Nonsyndromic clefts of the lip and/or palate are common birth defects with a strong genetic component. Based on unequal gender ratios for clefting phenotypes, evidence for linkage to the X chromosome and the occurrence of several X-linked clefting syndromes, we investigated the role of skewed X chromosome inactivation (XCI) in orofacial clefts. Our samples consisted of female monozygotic (MZ) twins (n = 8) and sister pairs (n = 152) discordant for nonsyndromic clefting. We measured the XCI pattern in peripheral blood lymphocyte DNA using a methylation based androgen receptor gene assay. Skewing of XCI was defined as the deviation in …