Refinement of the MYP3 locus on human chromosome 12 in a German family with Mendelian autosomal dominant high-grade myopia by SNP array mapping.

Myopia, or short-sightedness, is the most common form of vision disorder worldwide. Higher levels of myopia, usually defined as an axial eye length of >26 mm or a refractive error of < -5.00 diopters are often designated as 'pathologic' myopia, because of the predisposition to develop further eye disorders such as retinal detachment, macular degeneration, cataract, or glaucoma.

Population haplotypes of exon ORF15 of the retinitis pigmentosa GTPase regulator gene in Germany : implications for screening for inherited retinal disorders.

Background: Mutations in exon ORF15 of the retinitis pigmentosa GTPase regulator gene (RPGR) within chromosomal region Xp21.1 are a significant cause of a number of retinal disorders. The high mutation rate is ascribed to the highly repetitive, purine-rich tracts within the exon ORF15 sequence.

Mutational risk in highly repetitive exon ORF15 of the RPGR multidisease gene is not associated with haplotype background.

Exon ORF15 is an alternative exon in the retinitis pigmentosa GTPase regulator (RPGR) gene containing a highly repetitive, purine-rich internal region. It constitutes a mutational hot spot giving rise to a group of heterogeneous X-linked retinal disorders. We sought to determine whether non-pathogenic substitutions and sequence length variations in the repetitive sequence have an influence on the risk of pathogenic exon ORF15 mutations.

A genetic perspective on myopia.

Myopia is a refractive error of the eye that has a significant socioeconomic impact due to its increasing prevalence and the fact that it causes visual impairment. Its aetiology is complex and is likely to involve the interaction of environmental and genetic influences. Tight environmental influence is exemplified by defocus-induced myopia produced in animal models, while genetic factors predominate in familial occurrence of myopia with a Mendelian inheritance pattern.

Reduced expression of connexin 31.1 in larynx cancer is not caused by GJB5 mutations.

Lack of regular cell-cell interaction is one major cause for neoplastic growth and metastasis. In head and neck squamous cell carcinomas a 10-fold down-regulation of connexin31.1 (GJB5) as well as mutations in the TGF-beta-receptor-II were reported.