Your search keyword '"Raphael deWijn"' showing total 2 results

1. Two Piwis with Ago-like functions silence somatic genes at the chromatin level

Author

Martin Jung, Simone Marker, Marcello Pirritano, Angela M. Rodrigues-Viana, Ulrike Götz, Gilles Gasparoni, Marcel H. Schulz, Martin Simon, Raphael deWijn, Franziska Drews, and Sivarajan Karunanithi

Subjects

Ribonuclease III, Somatic cell, Protozoan Proteins, Piwi-interacting RNA, RNA interference, Gene Silencing, Transgenes, RNA, Small Interfering, Molecular Biology, biology, Gene Expression Profiling, High-Throughput Nucleotide Sequencing, Cell Biology, Argonaute, Chromatin, Cell biology, Argonaute Proteins, biology.protein, RNA Interference, Paramecium tetraurelia, Biogenesis, Dicer, Protein Binding, Research Paper

Abstract

Most sRNA biogenesis mechanisms involve either RNAse III cleavage or ping-pong amplification by different Piwi proteins harbouring slicer activity. Here, we follow the question why the mechanism of transgene-induced silencing in the ciliate Paramecium needs both Dicer activity and two Ptiwi proteins. This pathway involves primary siRNAs produced from non-translatable transgenes and secondary siRNAs from targeted endogenous loci. Our data does not indicate any signatures from ping-pong amplification but Dicer cleavage of long dsRNA. Ptiwi13 and 14 prefer different sub-cellular localizations and different preferences for primary and secondary siRNAs but do not load them mutually exclusive. Both Piwis enrich for antisense RNAs and show a general preference for uridine-rich sRNAs along the entire sRNA length. In addition, Ptiwi14-loaded siRNAs show a 5´-U signature. Our data indicates both Ptiwis and 2´-O-methylation contributing to strand selection of Dicer cleaved siRNAs. This unexpected function of the two distinct vegetative Piwis extends the increasing knowledge of the diversity of Piwi functions in diverse silencing pathways. We describe an unusual mode of action of Piwi proteins extending not only the great variety of Piwi-associated RNAi pathways but moreover raising the question whether this could have been the primordial one.

Published

2021

2. Two Piwis with Ago-like functions silence somatic genes at the chromatin level

Author

Marcel H. Schulz, Martin Simon, Ulrike Götz, Angela M. Rodrigues-Viana, Martin Jung, Franziska Drews, Gilles Gasparoni, Simone Marker, Sivarajan Karunanithi, Marcello Pirritano, and Raphael deWijn

Subjects

Small interfering RNA, RNA silencing, Macronucleus, biology.protein, Gene silencing, Chromatin silencing, Piwi-interacting RNA, Biology, Chromatin, Cell biology, Dicer

Abstract

Most sRNA biogenesis mechanisms involve either RNAseIII cleavage or ping-pong amplification by different Piwi proteins harboring slicer activity. Here, we follow the question why the mechanism of transgene-induced silencing in the ciliate Paramecium needs both Dicer activity and two Ptiwi proteins. This pathway involves primary siRNAs produced from non-translatable transgenes and secondary siRNAs from endogenous remote loci. Our data does not indicate any signatures from ping-pong amplification but Dicer cleavage of long dsRNA. We show that Ptiwi13 and 14 have different preferences for primary and secondary siRNAs but do not load them mutually exclusive. Both Piwis enrich for antisense RNAs and Ptiwi14 loaded siRNAs show a 5′-U signature. Both Ptiwis show in addition a general preference for Uridine-rich sRNAs along the entire sRNA length. Our data indicates both Ptiwis and 2’-O-methylation to contribute to strand selection of Dicer cleaved siRNAs. This unexpected function of two distinct vegetative Piwis extends the increasing knowledge of the diversity of Piwi functions in diverse silencing pathways. As both Ptiwis show differential subcellular localisation, Ptiwi13 in the cytoplasm and Ptiwi14 in the vegetative macronucleus, we conclude that cytosolic and nuclear silencing factors are necessary for efficient chromatin silencing.

Published

2020