Genome Biology (Jun 2019)
Invasive DNA elements modify the nuclear architecture of their insertion site by KNOT-linked silencing in Arabidopsis thaliana
Abstract
Abstract Background The three-dimensional (3D) organization of chromosomes is linked to epigenetic regulation and transcriptional activity. However, only few functional features of 3D chromatin architecture have been described to date. The KNOT is a 3D chromatin structure in Arabidopsis, comprising 10 interacting genomic regions termed KNOT ENGAGED ELEMENTs (KEEs). KEEs are enriched in transposable elements and associated small RNAs, suggesting a function in transposon biology. Results Here, we report the KNOT’s involvement in regulating invasive DNA elements. Transgenes can specifically interact with the KNOT, leading to perturbations of 3D nuclear organization, which correlates with the transgene’s expression: high KNOT interaction frequencies are associated with transgene silencing. KNOT-linked silencing (KLS) cannot readily be connected to canonical silencing mechanisms, such as RNA-directed DNA methylation and post-transcriptional gene silencing, as both cytosine methylation and small RNA abundance do not correlate with KLS. Furthermore, KLS exhibits paramutation-like behavior, as silenced transgenes can lead to the silencing of active transgenes in trans. Conclusion Transgene silencing can be connected to a specific feature of Arabidopsis 3D nuclear organization, namely the KNOT. KLS likely acts either independent of or prior to canonical silencing mechanisms, such that its characterization not only contributes to our understanding of chromosome folding but also provides valuable insights into how genomes are defended against invasive DNA elements.
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