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Conserved and divergent DNA recognition specificities and functions of R2 retrotransposon N-terminal domains

Rosa Jooyoung Lee, Connor A. Horton, Briana Van Treeck, Jeremy J. R. McIntyre, Kathleen Collins

2024Cell Reports13 citationsDOIOpen Access PDF

Abstract

R2 non-long terminal repeat (non-LTR) retrotransposons are among the most extensively distributed mobile genetic elements in multicellular eukaryotes and show promise for applications in transgene supplementation of the human genome. They insert new gene copies into a conserved site in 28S ribosomal DNA with exquisite specificity. R2 clades are defined by the number of zinc fingers (ZFs) at the N terminus of the retrotransposon-encoded protein, postulated to additively confer DNA site specificity. Here, we illuminate general principles of DNA recognition by R2 N-terminal domains across and between clades, with extensive, specific recognition requiring only one or two compact domains. DNA-binding and protection assays demonstrate broadly shared as well as clade-specific DNA interactions. Gene insertion assays in cells identify the N-terminal domains sufficient for target-site insertion and reveal roles in second-strand cleavage or synthesis for clade-specific ZFs. Our results have implications for understanding evolutionary diversification of non-LTR retrotransposon insertion mechanisms and the design of retrotransposon-based gene therapies.

Topics & Concepts

RetrotransposonBiologyLong terminal repeatGeneticsGeneDNAGenomeComputational biologyMobile genetic elementsTransposable elementChromosomal and Genetic VariationsCRISPR and Genetic EngineeringPlant Virus Research Studies
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