Abstract | PURPOSE: METHODS: A combination of linkage analysis and DNA sequencing in five families was used to identify disease-causing mutations in VMD2. The effect of these mutations on splicing was assessed using a minigene system. RESULTS: Three pathogenic sequence alterations in VMD2 were identified in five families with nanophthalmos associated with ADVIRC. All sequences showed simultaneous missense substitutions and exon skipping. CONCLUSIONS: VMD2 encodes bestrophin, a transmembrane protein located at the basolateral membrane of the RPE, that is also mutated in Best macular dystrophy. We support that each heterozygous affected individual produces three bestrophin isoforms consisting of the wild type and two abnormal forms: one containing a missense substitution and the other an in-frame deletion. The data showed that VMD2 mutations caused defects of ocular patterning, supporting the hypothesized role for the RPE, and specifically VMD2, in the normal growth and development of the eye.
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Authors | Jill Yardley, Bart P Leroy, Niki Hart-Holden, Bart A Lafaut, Bart Loeys, Ludwine M Messiaen, Rahat Perveen, M Ashwin Reddy, Shomi S Bhattacharya, Elias Traboulsi, Diana Baralle, Jean-Jacques De Laey, Bernard Puech, Philippe Kestelyn, Anthony T Moore, Forbes D C Manson, Graeme C M Black |
Journal | Investigative ophthalmology & visual science
(Invest Ophthalmol Vis Sci)
Vol. 45
Issue 10
Pg. 3683-9
(Oct 2004)
ISSN: 0146-0404 [Print] United States |
PMID | 15452077
(Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
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Chemical References |
- BEST1 protein, human
- Bestrophins
- Chloride Channels
- Eye Proteins
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Topics |
- Bestrophins
- Chloride Channels
- Choroid Diseases
(genetics)
- Chromosome Mapping
- DNA Mutational Analysis
- Eye Diseases
(genetics)
- Eye Proteins
(genetics)
- Female
- Genes, Dominant
- Humans
- Male
- Microphthalmos
(genetics)
- Mutation
- Pedigree
- Polymerase Chain Reaction
- RNA Splicing
(genetics)
- Retinal Diseases
(genetics)
- Sequence Analysis, DNA
- Vitreous Body
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