Polymorphisms in an intronic region of the myocilin gene associated with primary open-angle glaucoma--a possible role for alternate splicing

Polymorphisms in an intronic region of the myocilin gene associated with primary open-angle glaucoma--a possible role for alternate splicing

To examine the possible role of alternate splicing leading to aggregation of myocilin in primary open-angle glaucoma. Several single nucleotide variations found in the myocilin (MYOC) genomic region were collected and examined for their possible role in causing splice-site alterations. A model for m...

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Bibliographic Details
Published in:Molecular vision Vol. 16; pp. 2891 - 2902
Main Authors: Pandaranayaka, P J Eswari, Prasanthi, N, Kannabiran, N, Rangachari, K, Dhivya, M, Krishnadas, Subbiah R, Sundaresan, P, Krishnaswamy, S
Format: Journal Article
Language:English
Published: United States Molecular Vision 29-12-2010
Subjects:
Adult
Alternative Splicing - genetics
Base Sequence
Cluster Analysis
Cytoskeletal Proteins - genetics
DNA Mutational Analysis
Eye Proteins - genetics
Gene Frequency - genetics
Genetic Predisposition to Disease
Glaucoma, Open-Angle - genetics
Glycoproteins - genetics
Humans
Introns - genetics
Models, Molecular
Molecular Sequence Data
Polymorphism, Single Nucleotide - genetics
Restriction Mapping
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Summary:To examine the possible role of alternate splicing leading to aggregation of myocilin in primary open-angle glaucoma. Several single nucleotide variations found in the myocilin (MYOC) genomic region were collected and examined for their possible role in causing splice-site alterations. A model for myocilin built using a knowledge-based consensus method was used to map the altered protein products. A total of 150 open-angle glaucoma patients and 50 normal age-matched control subjects were screened for the predicted polymorphisms, and clustering was performed. A total of 124 genomic variations were screened, and six polymorphisms that lead to altered protein products were detected as possible candidates for the alternative splicing mechanism. Five of these lay in the intronic regions, and the one that lay in the exon region corresponded to the previously identified polymorphism (Tyr347Tyr) implicated in primary open-angle glaucoma. Experimentally screening the intronic region of the MYOC gene showed the presence of the predicted g.14072G>A polymorphism, g.1293C/T heterozygous polymorphism, instead of our predicted g.1293C/- polymorphism. Other than the prediction, two novel SNPs (g.1295G>T and g.1299T>G) and two reported SNPs (g.1284G>T and g.1286G>T) were also identified. Cluster analysis showed the g.14072G>A homozygous condition was more common in this cohort than the heterozygous condition. We previously proposed that the disruption of dimer or oligomer formation by the C-term region allows greater chances of nucleation for aggregation. Here we suggest that polymorphisms in the myocilin genomic region that cause synonymous codon changes or those that occur in the intron regions can possibly lead to altered myocilin protein products through altered intron-exon splicing.
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The first two authors contributed equally to the work
ISSN:1090-0535
1090-0535