TY - JOUR T1 - Retrotransposons are specified as DNA replication origins in the gene-poor regions of Arabidopsis heterochromatin JF - bioRxiv DO - 10.1101/090183 SP - 090183 AU - Zaida Vergara AU - Joana Sequeira-Mendes AU - Jordi Morata AU - Elizabeth Hénaff AU - Ramón Peiró AU - Celina Costas AU - Josep M. Casacuberta AU - Crisanto Gutierrez Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/11/29/090183.abstract N2 - Genomic stability depends on faithful genome replication. This is achieved by the concerted activity of thousands of DNA replication origins (ORIs) scattered throughout the genome. In spite of multiple efforts, the DNA and chromatin features that determine ORI specification are not presently known. We have generated a high-resolution genome-wide map of ORIs in cultured Arabidopsis thaliana cells that rendered a collection of 3230 ORIs. In this study we focused on defining the features associated with ORIs in heterochromatin. We found that while ORIs tend to colocalize with genes in euchromatic gene-rich regions, they frequently colocalize with transposable elements (TEs) in pericentromeric gene-poor domains. Interestingly, ORIs in TEs associate almost exclusively with retrotransposons, in particular, of the Gypsy family. ORI activity in retrotransposons occurs independently of TE expression and while maintaining high levels of H3K9me2 and H3K27me1, typical marks of repressed heterochromatin. ORI-TEs largely colocalize with chromatin signatures defining GC-rich heterochromatin. Importantly, TEs with active ORIs contain a local GC content higher than the TEs lacking them. Our results lead us to conclude that ORI colocalization with TEs is largely limited to retrotransposons, which are defined by their transposition mechanisms based on transcription, and they occur in a specific chromatin landscape. Our detailed analysis of ORIs responsible for heterochromatin replication has also implications on the mechanisms of ORI specification in other multicellular organisms in which retrotransposons are major components of heterochromatin as well as of the entire genome. ER -