Transcriptionally Driven DNA Replication Program of the Human Parasite Leishmania major

Faithful inheritance of eukaryotic genomes requires the orchestrated activation of multiple DNA replication origins (ORIs). Although origin firing is mechanistically conserved, how origins are specified and selected for activation varies across different model systems. Here, we provide a complete an...

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Bibliographic Details
Published in:Cell reports (Cambridge) 2016-08, Vol.16 (6), p.1774-1786
Main Authors: Lombraña, Rodrigo, Álvarez, Alba, Fernández-Justel, José Miguel, Almeida, Ricardo, Poza-Carrión, César, Gomes, Fábia, Calzada, Arturo, Requena, José María, Gómez, María
Format: Article
Language:English
Subjects:
Animals
Chromatin - parasitology
DNA - metabolism
DNA Replication - genetics
DNA replication origins
DNA Replication Timing - genetics
Eukaryotic Cells - parasitology
genome-wide mapping
Humans
Leishmania major
Leishmania major - genetics
nucleosomes
Nucleosomes - parasitology
Parasites - genetics
Replication Origin - genetics
replication timing
transcription
Transcription, Genetic
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Summary:Faithful inheritance of eukaryotic genomes requires the orchestrated activation of multiple DNA replication origins (ORIs). Although origin firing is mechanistically conserved, how origins are specified and selected for activation varies across different model systems. Here, we provide a complete analysis of the nucleosomal landscape and replication program of the human parasite Leishmania major, building on a better evolutionary understanding of replication organization in Eukarya. We found that active transcription is a driving force for the nucleosomal organization of the L. major genome and that both the spatial and the temporal program of DNA replication can be explained as associated to RNA polymerase kinetics. This simple scenario likely provides flexibility and robustness to deal with the environmental changes that impose alterations in the genetic programs during parasitic life cycle stages. Our findings also suggest that coupling replication initiation to transcription elongation could be an ancient solution used by eukaryotic cells for origin maintenance. [Display omitted] •L. major DNA replication origins and nucleosome occupancies are mapped at high resolution•Those datasets are integrated with mRNA profiling and epigenetic marks•Nucleosome patterns recapitulate RNA polymerase kinetics•DNA replication initiates at sites of RNA polymerase pausing and termination Though the mechanism of DNA replication origin activation is well understood and conserved among eukaryotes, the determinants of origin specification seem to vary across different model systems. Lombraña et al. found that active transcription is the primary determinant underlying the temporal and spatial replication of the Leishmania major genome.
ISSN:2211-1247
2211-1247
DOI:10.1016/j.celrep.2016.07.007