Active retrotransposons help maintain pericentromeric heterochromatin required for faithful cell division

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Abstract

Retrotransposons are populated in vertebrate genomes, and when active, are thought to cause genome instability with potential benefit to genome evolution. Retrotransposon-derived RNAs are also known to give rise to small endo-siRNAs to help maintain heterochromatin at their sites of transcription; however, as not all heterochromatic regions are equally active in transcription, it remains unclear how heterochromatin is maintained across the genome. Here, we address these problems by defining the origins of repeat-derived RNAs and their specific chromatin locations in Drosophila S2 cells. We demonstrate that repeat RNAs are predominantly derived from active gypsy elements and processed by Dcr-2 into small RNAs to help maintain pericentromeric heterochromatin. We also show in cultured S2 cells that synthetic repeat-derived endo-siRNA mimics are sufficient to rescue Dcr-2-deficiency-induced defects in heterochromatin formation in interphase and chromosome segregation during mitosis, demonstrating that active retrotransposons are required for stable genetic inheritance.

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APA

Hao, Y., Wang, D., Wu, S., Li, X., Shao, C., Zhang, P., … He, S. (2020). Active retrotransposons help maintain pericentromeric heterochromatin required for faithful cell division. Genome Research, 30(11), 1570–1582. https://doi.org/10.1101/gr.256131.119

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