[Early-onset generalized polyarthritis (Stickler syndrome)].

A 25-years old woman complained of pain especially in the knees and hips since she was 11 years old. Her pain worsened with weight bearing and activity. Aged 16 she underwent a transposition osteotomy of the right femoral neck.

Diagnosis of skeletal dysplasia by multidisciplinary assessment: a report of two cases of thanatophoric dysplasia.

Skeletal dysplasias, a heterogeneous group of bone growth disorders, can be detected by routine prenatal ultrasound examination. As it is difficult to make a specific diagnosis, prediction of prognosis is of importance for obstetric management. In order to specify diagnosis, radiological, pathological and molecular genetic examination are often required.

Genetic variation of the human glycine receptor subunit genes GLRA3 and GLRB and susceptibility to idiopathic generalized epilepsies.

Alterations of glycine receptor alpha1 and beta subunit genes have been associated with hypertonic motor disorders in both mice and humans. Mutations in genes encoding other ligand- and voltage-gated ion channels have been identified in rare monogenic forms of idiopathic generalized epilepsies (IGE). We tested the hypothesis that allelic variants of the glycine receptor subunit genes, GLRA3 and GLRB, both localized on chromosome 4q, confer susceptibility to common subtypes of IGE.

Boy with syndactylies, macrocephaly, and severe skeletal dysplasia: not a new syndrome, but two dominant mutations (GLI3 E543X and COL2A1 G973R) in the same individual.

An unusual combination of syndactylies, macrocephaly, and severe skeletal dysplasia was observed in a newborn infant. A history of digital anomalies in the father and grandfather lead to the diagnosis of dominantly inherited Greig cephalopolysyndactyly syndrome (GCPS, MIM #175700). Having explained the digital findings and macrocephaly, the skeletal changes were thought to fit best congenital spondyloepiphyseal dysplasia (SEDC MIM #183900), a type II collagen disorder.

Novel GLRA1 missense mutation (P250T) in dominant hyperekplexia defines an intracellular determinant of glycine receptor channel gating.

Missense mutations as well as a null allele of the human glycine receptor alpha1 subunit gene GLRA1 result in the neurological disorder hyperekplexia [startle disease, stiff baby syndrome, Mendelian Inheritance in Man (MIM) #149400]. In a pedigree showing dominant transmission of hyperekplexia, we identified a novel point mutation C1128A of GLRA1. This mutation encodes an amino acid substitution (P250T) in the cytoplasmic loop linking transmembrane regions M1 and M2 of the mature alpha1 polypeptide.