Gulsum Kayhan1, Mehmet Ali Ergun1, Sezen Guntekin Ergun1,2, Serdar Kula3, Ferda E Percin1. 1. 1 Departments of Medical Genetics, Gazi University Faculty of Medicine , Ankara, Turkey . 2. 2 CanSyL, Graduate School of Informatics, Middle East Technical University , Ankara, Turkey . 3. 3 Departments of Pediatric Cardiology, Gazi University Faculty of Medicine , Ankara, Turkey .
Abstract
BACKGROUND: Marfan syndrome (MS), a connective tissue disorder that affects ocular, skeletal, and cardiovascular systems, is caused by heterozygous pathogenic variants in FBN1. To date, over 1800 different pathogenic variants have been reported. METHODS: In the present study, FBN1 sequence analysis was performed in a family and two unrelated patients with MS. RESULTS: Three novel pathogenic variants were detected. Two of these variants [c.6610T>C; p.(Cys2204Arg) and c.1956T>G; p.(Cys652Trp)], which affect a cysteine residue, were associated with MS with ectopia lentis, whereas the mutation causing a premature stop codon [c.2506delA; p.(Ser836ValfsX10)] leads to a classical MS of a milder phenotype. CONCLUSION: We anticipate that the three novel pathogenic variants identified in this study will provide further support for the clinical relevance of variants in the large FBN1 gene.
BACKGROUND:Marfan syndrome (MS), a connective tissue disorder that affects ocular, skeletal, and cardiovascular systems, is caused by heterozygous pathogenic variants in FBN1. To date, over 1800 different pathogenic variants have been reported. METHODS: In the present study, FBN1 sequence analysis was performed in a family and two unrelated patients with MS. RESULTS: Three novel pathogenic variants were detected. Two of these variants [c.6610T>C; p.(Cys2204Arg) and c.1956T>G; p.(Cys652Trp)], which affect a cysteine residue, were associated with MS with ectopia lentis, whereas the mutation causing a premature stop codon [c.2506delA; p.(Ser836ValfsX10)] leads to a classical MS of a milder phenotype. CONCLUSION: We anticipate that the three novel pathogenic variants identified in this study will provide further support for the clinical relevance of variants in the large FBN1 gene.