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Evolution of Replication Origins in Vertebrate Genomes: Rapid Turnover Despite Selective Constraints [SNS-seq]


ABSTRACT: Background: The replication program of vertebrate genomes is driven by the chromosomal distribution and timing of activation of ten of thousands replication origins. Genome-wide studies have shown the frequent association of origins with promoters and CpG islands, and their enrichment in G-quadruplexes sequence motifs (G4). However the genetic determinants driving their activity remain poorly understood. To gain insight on functional constraints operating on replication origins and on their spatial distribution, we conduct the first evolutionary comparison of genome-wide origins maps across vertebrates. Results: We generated a high resolution genome-wide map of chicken replication origins (the first of a bird genome), and performed an extensive comparison with human and mouse maps. The analysis of intra-species polymorphism revealed a strong depletion of genetic diversity on a ∼ 40bp region centered on the replication initiation loci. Surprisingly, this depletion in genetic diversity is not linked to the presence of G4 motifs, nor to the association with promoters or CpG islands. In contrast, we also show that origins have experienced a rapid turnover during vertebrates evolution, since pairwise comparisons of origin maps revealed that only 4 to 24% of them are conserved between any two species. Conclusions: This study unravels the existence of a novel genetic determinant of replication origins, whose precise functional role remains to be determined. Despite the importance of replication initiation activity for the fitness of organisms, the distribution of replication origins along vertebrate chromosomes is highly flexible.

ORGANISM(S): Gallus gallus

PROVIDER: GSE119488 | GEO | 2019/03/06

REPOSITORIES: GEO

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