We report a 29 week fetus with arthrogryposis multiplex congenita, multiple joint dislocations, scoliosis and dysmorphism who was detected to be double heterozygote for putatively pathogenic FBN1 (NM_000138.4:c.6004C > T; p.Pro2002Ser) and FBN2 (NM_001999.3:c.2945G > T; p.Cys982Phe) variants on exome sequencing.
We report a 29 week fetus with arthrogryposis multiplex congenita, multiple joint dislocations, scoliosis and dysmorphism who was detected to be double heterozygote for putatively pathogenic FBN1 (NM_000138.4:c.6004C > T; p.Pro2002Ser) and FBN2 (NM_001999.3:c.2945G > T; p.Cys982Phe) variants on exome sequencing.
We report a 29 week fetus with arthrogryposis multiplex congenita, multiple joint dislocations, scoliosis and dysmorphism who was detected to be double heterozygote for putatively pathogenic FBN1 (NM_000138.4:c.6004C > T; p.Pro2002Ser) and FBN2 (NM_001999.3:c.2945G > T; p.Cys982Phe) variants on exome sequencing.
We report a 29 week fetus with arthrogryposis multiplex congenita, multiple joint dislocations, scoliosis and dysmorphism who was detected to be double heterozygote for putatively pathogenic FBN1 (NM_000138.4:c.6004C > T; p.Pro2002Ser) and FBN2 (NM_001999.3:c.2945G > T; p.Cys982Phe) variants on exome sequencing.
Clustering of FBN2 mutations in patients with congenital contractural arachnodactyly indicates an important role of the domains encoded by exons 24 through 34 during human development.
Comprehensive clinical and molecular assessment of 32 probands with congenital contractural arachnodactyly: report of 14 novel mutations and review of the literature.