Genome-Wide Signatures of ‘Rearrangement Hotspots’ within Segmental Duplications in Humans

Uddin, Mohammed and Sturge, Mitch and Peddle , Lynette and O'Reilly, Darren D. and Rahman, Proton (2011) Genome-Wide Signatures of ‘Rearrangement Hotspots’ within Segmental Duplications in Humans. PLoS ONE, 6 (12). pp. 1-12. ISSN 1932-6203

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Abstract

The primary objective of this study was to create a genome-wide high resolution map (i.e., .100 bp) of ‘rearrangement hotspots’ which can facilitate the identification of regions capable of mediating de novo deletions or duplications in humans. A hierarchical method was employed to fragment segmental duplications (SDs) into multiple smaller SD units. Combining an end space free pairwise alignment algorithm with a ‘seed and extend’ approach, we have exhaustively searched 409 million alignments to detect complex structural rearrangements within the reference-guided assembly of the NA18507 human genome (186 coverage), including the previously identified novel 4.8 Mb sequence from de novo assembly within this genome. We have identified 1,963 rearrangement hotspots within SDs which encompass 166 genes and display an enrichment of duplicated gene nucleotide variants (DNVs). These regions are correlated with increased nonallelic homologous recombination (NAHR) event frequency which presumably represents the origin of copy number variations (CNVs) and pathogenic duplications/deletions. Analysis revealed that 20% of the detected hotspots are clustered within the proximal and distal SD breakpoints flanked by the pathogenic deletions/duplications that have been mapped for 24 NAHR-mediated genomic disorders. FISH Validation of selected complex regions revealed 94% concordance with in silico localization of the highly homologous derivatives. Other results from this study indicate that intra-chromosomal recombination is enhanced in genic compared with agenic duplicated regions, and that gene desert regions comprising SDs may represent reservoirs for creation of novel genes. The generation of genome-wide signatures of ‘rearrangement hotspots’, which likely serve as templates for NAHR, may provide a powerful approach towards understanding the underlying mutational mechanism(s) for development of constitutional and acquired diseases.


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Item Type: Article
URI: http://research.library.mun.ca/id/eprint/127
Item ID: 127
Additional Information: Memorial University Open Access Author’s Fund
Keywords: Genomics, Genomic Structure, Copy Number/ Structural Variation, Chromosomal Abnormalities, Clinical Cytogenetics, Genotype-Phenotype Correlations
Department(s): Medicine, Faculty of
Date: 14 December 2011
Date Type: Publication

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