Jakob Trendel scite author profile

Graphical AbstractHighlights d XRNAX purifies protein-crosslinked RNA of all biotypes from UV-crosslinked cells d Discovery of the WKF RNA-binding domain d Discovery of more than 700 proteins interacting with nonpolyadenylated RNA d Profiling of stress-induced changes in RNA-binding proteomes SUMMARY Proteins and RNA functionally and physically intersect in multiple biological processes, however, currently no universal method is available to purify protein-RNA complexes. Here, we introduce XRNAX, a method for the generic purification of proteincrosslinked RNA, and demonstrate its versatility to study the composition and dynamics of protein-RNA interactions by various transcriptomic and proteomic approaches. We show that XRNAX captures all RNA biotypes and use this to characterize the sub-proteomes that interact with coding and noncoding RNAs (ncRNAs) and to identify hundreds of protein-RNA interfaces. Exploiting the quantitative nature of XRNAX, we observe drastic remodeling of the RNA-bound proteome during arsenite-induced stress, distinct from autophagy-related changes in the total proteome. In addition, we combine XRNAX with crosslinking immunoprecipitation sequencing (CLIP-seq) to validate the interaction of ncRNA with lamin B1 and EXOSC2. Thus, XRNAX is a resourceful approach to study structural and compositional aspects of protein-RNA interactions to address fundamental questions in RNA-biology. Formal Analysis, J.T.; Formal Analysis of DUF2373, A.P. and A.B.; PNK assay, R.H.; Formal Analysis of XRNAX-CLIP-seq, T.S.; Investigation, J.T.; Writing -Original Draft,

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The long non-coding RNA LINC00152 is essential for cell cycle progression through mitosis in HeLa cells

Nötzold

Frank

Gandhi

et al. 2017

Sci Rep

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In recent years, long non-coding RNA (lncRNA) research has identified essential roles of these transcripts in virtually all physiological cellular processes including tumorigenesis, but their functions and molecular mechanisms are poorly understood. In this study, we performed a high-throughput siRNA screen targeting 638 lncRNAs deregulated in cancer entities to analyse their impact on cell division by using time-lapse microscopy. We identified 26 lncRNAs affecting cell morphology and cell cycle including LINC00152. This transcript was ubiquitously expressed in many human cell lines and its RNA levels were significantly upregulated in lung, liver and breast cancer tissues. A comprehensive sequence analysis of LINC00152 revealed a highly similar paralog annotated as MIR4435-2HG and several splice variants of both transcripts. The shortest and most abundant isoform preferentially localized to the cytoplasm. Cells depleted of LINC00152 arrested in prometaphase of mitosis and showed reduced cell viability. In RNA affinity purification (RAP) studies, LINC00152 interacted with a network of proteins that were associated with M phase of the cell cycle. In summary, we provide new insights into the properties and biological function of LINC00152 suggesting that this transcript is crucial for cell cycle progression through mitosis and thus, could act as a non-coding oncogene.

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Jakob Trendel

The Human RNA-Binding Proteome and Its Dynamics during Translational Arrest

The long non-coding RNA LINC00152 is essential for cell cycle progression through mitosis in HeLa cells

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