Rastislav Horos scite author profile

RNA-binding proteins (RBPs) determine RNA fate from synthesis to decay. Employing two complementary protocols for covalent UV crosslinking of RBPs to RNA, we describe a systematic, unbiased, and comprehensive approach, termed "interactome capture," to define the mRNA interactome of proliferating human HeLa cells. We identify 860 proteins that qualify as RBPs by biochemical and statistical criteria, adding more than 300 RBPs to those previously known and shedding light on RBPs in disease, RNA-binding enzymes of intermediary metabolism, RNA-binding kinases, and RNA-binding architectures. Unexpectedly, we find that many proteins of the HeLa mRNA interactome are highly intrinsically disordered and enriched in short repetitive amino acid motifs. Interactome capture is broadly applicable to study mRNA interactome composition and dynamics in varied biological settings.

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Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹

Klionsky

et al. 2021

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Comprehensive Identification of RNA-Binding Domains in Human Cells

et al. 2016

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SummaryMammalian cells harbor more than a thousand RNA-binding proteins (RBPs), with half of these employing unknown modes of RNA binding. We developed RBDmap to determine the RNA-binding sites of native RBPs on a proteome-wide scale. We identified 1,174 binding sites within 529 HeLa cell RBPs, discovering numerous RNA-binding domains (RBDs). Catalytic centers or protein-protein interaction domains are in close relationship with RNA-binding sites, invoking possible effector roles of RNA in the control of protein function. Nearly half of the RNA-binding sites map to intrinsically disordered regions, uncovering unstructured domains as prevalent partners in protein-RNA interactions. RNA-binding sites represent hot spots for defined posttranslational modifications such as lysine acetylation and tyrosine phosphorylation, suggesting metabolic and signal-dependent regulation of RBP function. RBDs display a high degree of evolutionary conservation and incidence of Mendelian mutations, suggestive of important functional roles. RBDmap thus yields profound insights into native protein-RNA interactions in living cells.

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The RNA-binding proteomes from yeast to man harbour conserved enigmRBPs

et al. 2015

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RNA-binding proteins (RBPs) exert a broad range of biological functions. To explore the scope of RBPs across eukaryotic evolution, we determined the in vivo RBP repertoire of the yeast Saccharomyces cerevisiae and identified 678 RBPs from yeast and additionally 729 RBPs from human hepatocytic HuH-7 cells. Combined analyses of these and recently published data sets define the core RBP repertoire conserved from yeast to man. Conserved RBPs harbour defined repetitive motifs within disordered regions, which display striking evolutionary expansion. Only 60% of yeast and 73% of the human RBPs have functions assigned to RNA biology or structural motifs known to convey RNA binding, and many intensively studied proteins surprisingly emerge as RBPs (termed ‘enigmRBPs'), including almost all glycolytic enzymes, pointing to emerging connections between gene regulation and metabolism. Analyses of the mitochondrial hydroxysteroid dehydrogenase (HSD17B10) uncover the RNA-binding specificity of an enigmRBP.

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

Trendel

Schwarzl

Horos

et al. 2019

Cell

344

359

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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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Rastislav Horos

Insights into RNA Biology from an Atlas of Mammalian mRNA-Binding Proteins

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹

Comprehensive Identification of RNA-Binding Domains in Human Cells

The RNA-binding proteomes from yeast to man harbour conserved enigmRBPs

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

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Product

Resources

About

Rastislav Horos

Insights into RNA Biology from an Atlas of Mammalian mRNA-Binding Proteins

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1

Comprehensive Identification of RNA-Binding Domains in Human Cells

The RNA-binding proteomes from yeast to man harbour conserved enigmRBPs

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

Contact Info

Product

Resources

About

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹