Abstract
BackgroundFamilial atrial fibrillation, an autosomal dominant disease, was previously mapped to chromosome 10q22. One of the genes mapped to the 10q22 region is DLG5, a member of the MAGUKs (Membrane Associated Gyanylate Kinase) family which mediates intracellular signaling. Only a partial cDNA was available for DLG5. To exclude potential disease inducing mutations, it was necessary to obtain a complete cDNA and genomic sequence of the gene.MethodsThe Northern Blot analysis performed using 3' UTR of this gene indicated the transcript size to be about 7.2 KB. Using race technique and library screening the entire cDNA was cloned. This gene was evaluated by sequencing the coding region and splice functions in normal and affected family members with familial atrial fibrillation. Furthermore, haploid cell lines from affected patients were generated and analyzed for deletions that may have been missed by PCR.ResultsWe identified two distinct alternately spliced transcripts of this gene. The genomic sequence of the DLG5 gene spanned 79 KB with 32 exons and was shown to have ubiquitous human tissue expression including placenta, heart, skeletal muscle, liver and pancreas.ConclusionsThe entire cDNA of DLG5 was identified, sequenced and its genomic organization determined.
Highlights
Familial atrial fibrillation, an autosomal dominant disease, was previously mapped to chromosome 10q22
This subset of familial atrial fibrillation provides an opportunity to explore a molecular basis for atrial fibrillation
We previously mapped the locus for familial atrial fibrillation to 10q22-24 between markers D10S1694 and D10S1786
Summary
An autosomal dominant disease, was previously mapped to chromosome 10q22. One of the genes mapped to the 10q22 region is DLG5, a member of the MAGUKs (Membrane Associated Gyanylate Kinase) family which mediates intracellular signaling. To exclude potential disease inducing mutations, it was necessary to obtain a complete cDNA and genomic sequence of the gene. The molecular basis for atrial fibrillation remains unknown. It usually occurs in association with structural or metabolic abnormalities. We identified several families of multiple generations affected with atrial fibrillation with no other underlying cause detected. This subset of familial atrial fibrillation provides an opportunity to explore a molecular basis for atrial fibrillation
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