OBJECTIVE: To determine the pathogenicity of a novel conserved missense mutation, p.Ser98Phe, in the emopamil binding protein (EBP) gene in order to perform a prenatal diagnostic test for X-linked dominant chondrodysplasia punctata (CDPX2) in a male foetus at 50% risk. METHODS: Family members were tested for p.Ser98Phe using PCR and sequence analysis of leucocyte or buccal cell DNA. Haplotype analysis was employed to identify the grandparental chromosome on which p.Ser98Phe had arisen. In silico protein analyses were used to predict whether p.Ser98Phe significantly altered the EBP protein structure. RESULTS: The mutation was detected in the proband and her affected mother but not in the maternal grandmother, who was thought to be mildly affected. However, haplotype analysis showed that p.Ser98Phe had arisen de novo on the grandpaternal X chromosome. Protein secondary structure predictions suggested that p.Ser98Phe alters the properties of the helix within which it is located. CONCLUSION: We concluded that p.Ser98Phe is likely to be pathogenic and proceeded with prenatal testing. The male foetus had not inherited p.Ser98Phe and his unaffected status was confirmed at birth. This family demonstrates some of the difficulties in interpreting the significance of novel missense mutations, particularly when results are needed urgently for prenatal diagnosis. 2008 John Wiley & Sons, Ltd
OBJECTIVE: To determine the pathogenicity of a novel conserved missense mutation, p.Ser98Phe, in the emopamil binding protein (EBP) gene in order to perform a prenatal diagnostic test for X-linked dominant chondrodysplasia punctata (CDPX2) in a male foetus at 50% risk. METHODS: Family members were tested for p.Ser98Phe using PCR and sequence analysis of leucocyte or buccal cell DNA. Haplotype analysis was employed to identify the grandparental chromosome on which p.Ser98Phe had arisen. In silico protein analyses were used to predict whether p.Ser98Phe significantly altered the EBP protein structure. RESULTS: The mutation was detected in the proband and her affected mother but not in the maternal grandmother, who was thought to be mildly affected. However, haplotype analysis showed that p.Ser98Phe had arisen de novo on the grandpaternal X chromosome. Protein secondary structure predictions suggested that p.Ser98Phe alters the properties of the helix within which it is located. CONCLUSION: We concluded that p.Ser98Phe is likely to be pathogenic and proceeded with prenatal testing. The male foetus had not inherited p.Ser98Phe and his unaffected status was confirmed at birth. This family demonstrates some of the difficulties in interpreting the significance of novel missense mutations, particularly when results are needed urgently for prenatal diagnosis. 2008 John Wiley & Sons, Ltd
Authors: Massimiliano Rossi; Christine M Hall; Raymonde Bouvier; Sophie Collardeau-Frachon; Frédérique Le Breton; Martine Bucourt; Marie Pierre Cordier; Christine Vianey-Saban; Giancarlo Parenti; Generoso Andria; Martine Le Merrer; Patrick Edery; Amaka C Offiah Journal: Pediatr Radiol Date: 2015-02-03
Authors: Jennifer E Posey; Lindsay C Burrage; Philippe M Campeau; James T Lu; Tanya N Eble; Lisa Kratz; Alan E Schlesinger; Richard A Gibbs; Brendan H Lee; Sandesh C S Nagamani Journal: Am J Med Genet A Date: 2015-04-02 Impact factor: 2.802