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      Protein-RNA Complexes and Efficient Automatic Docking: Expanding RosettaDock Possibilities

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          Abstract

          Protein-RNA complexes provide a wide range of essential functions in the cell. Their atomic experimental structure solving, despite essential to the understanding of these functions, is often difficult and expensive. Docking approaches that have been developed for proteins are often challenging to adapt for RNA because of its inherent flexibility and the structural data available being relatively scarce. In this study we adapted the RosettaDock protocol for protein-RNA complexes both at the nucleotide and atomic levels. Using a genetic algorithm-based strategy, and a non-redundant protein-RNA dataset, we derived a RosettaDock scoring scheme able not only to discriminate but also score efficiently docking decoys. The approach proved to be both efficient and robust for generating and identifying suitable structures when applied to two protein-RNA docking benchmarks in both bound and unbound settings. It also compares well to existing strategies. This is the first approach that currently offers a multi-level optimized scoring approach integrated in a full docking suite, leading the way to adaptive fully flexible strategies.

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          RNA and disease.

          Thomas Cooper, Lili Wan, Gideon Dreyfuss (2009)
          Cellular functions depend on numerous protein-coding and noncoding RNAs and the RNA-binding proteins associated with them, which form ribonucleoprotein complexes (RNPs). Mutations that disrupt either the RNA or protein components of RNPs or the factors required for their assembly can be deleterious. Alternative splicing provides cells with an exquisite capacity to fine-tune their transcriptome and proteome in response to cues. Splicing depends on a complex code, numerous RNA-binding proteins, and an enormously intricate network of interactions among them, increasing the opportunity for exposure to mutations and misregulation that cause disease. The discovery of disease-causing mutations in RNAs is yielding a wealth of new therapeutic targets, and the growing understanding of RNA biology and chemistry is providing new RNA-based tools for developing therapeutics.
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            The MC-Fold and MC-Sym pipeline infers RNA structure from sequence data.

            Marc Parisien, François Major (2008)
            The classical RNA secondary structure model considers A.U and G.C Watson-Crick as well as G.U wobble base pairs. Here we substitute it for a new one, in which sets of nucleotide cyclic motifs define RNA structures. This model allows us to unify all base pairing energetic contributions in an effective scoring function to tackle the problem of RNA folding. We show how pipelining two computer algorithms based on nucleotide cyclic motifs, MC-Fold and MC-Sym, reproduces a series of experimentally determined RNA three-dimensional structures from the sequence. This demonstrates how crucial the consideration of all base-pairing interactions is in filling the gap between sequence and structure. We use the pipeline to define rules of precursor microRNA folding in double helices, despite the presence of a number of presumed mismatches and bulges, and to propose a new model of the human immunodeficiency virus-1 -1 frame-shifting element.
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              RNA recognition motifs: boring? Not quite.

              Antoine Cléry, Markus Blatter, Frédéric Allain (2008)
              The RNA recognition motif (RRM) is one of the most abundant protein domains in eukaryotes. While the structure of this domain is well characterized by the packing of two alpha-helices on a four-stranded beta-sheet, the mode of protein and RNA recognition by RRMs is not clear owing to the high variability of these interactions. Here we report recent structural data on RRM-RNA and RRM-protein interactions showing the ability of this domain to modulate its binding affinity and specificity using each of its constitutive elements (beta-strands, loops, alpha-helices). The extreme structural versatility of the RRM interactions explains why RRM-containing proteins have so diverse biological functions.
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                Author and article information

                Contributors
                Jinn-Moon Yang: Role: Editor
                Journal
                Journal ID (nlm-ta): PLoS One
                Journal ID (iso-abbrev): PLoS ONE
                Journal ID (publisher-id): plos
                Journal ID (pmc): plosone
                Title: PLoS ONE
                Publisher: Public Library of Science (San Francisco, USA )
                ISSN (Electronic): 1932-6203
                Publication date Collection: 2014
                Publication date (Electronic): 30 September 2014
                Volume: 9
                Issue: 9
                Electronic Location Identifier: e108928
                Affiliations
                [1 ]AMIB Project, Inria Saclay-Île de France, Palaiseau, France
                [2 ]Laboratoire de Recherche en Informatique (LRI), CNRS UMR 8623, Université Paris-Sud, Orsay, France
                [3 ]Laboratoire d'Informatique de l'École Polytechnique (LIX), CNRS UMR 7161, École Polytechnique, Palaiseau, France
                [4 ]Laboratoire d'Informatique de Robotique et de Microélectronique de Montpellier (LIRMM), CNRS UMR 5506, Université Montpellier 2, Montpellier, France
                National Chiao Tung University, Taiwan
                Author notes

                Competing Interests: The authors have declared that no competing interests exist.

                Conceived and designed the experiments: AGG CF JA JB. Performed the experiments: AGG CF JA JB. Analyzed the data: AGG CF JA JB. Contributed reagents/materials/analysis tools: AGG CF JA JB. Wrote the paper: AGG CF JA JB.

                Article
                Publisher ID: PONE-D-14-34665
                DOI: 10.1371/journal.pone.0108928
                PMC ID: 4182525
                PubMed ID: 25268579
                SO-VID: 2988a287-7869-4f3b-a4dc-b76f50b622d7
                Copyright statement: Copyright @ 2014
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

                History
                Date received : 1 August 2014
                Date accepted : 5 September 2014
                Page count
                Pages: 10
                Funding
                This work was granted access to the HPC resources of TGCC (Très Grand Centre de calcul du CEA - http://www-hpc.cea.fr/en/complexe/tgcc-curie.htm) under the allocation t2013077065 made by GENCI (Grand Equipement National de Calcul Intensif - http://www.genci.fr). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
                Categories
                Subject: Research Article
                Subject: Biology and life sciences
                Subject: Computational Biology
                Subject: Molecular biology
                Subject: Macromolecular structure analysis
                Subject: Macromolecular complex analysis
                Subject: RNA structure
                Subject: Molecular Complexes
                Subject: Computer and Information Sciences
                Subject: Artificial Intelligence
                Subject: Software Engineering
                Subject: Software Tools
                Custom metadata
                Data Availability The authors confirm that all data underlying the findings are fully available without restriction. All relevant data are within the paper and its Supporting Information files.

                ScienceOpen disciplines: Uncategorized
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                ScienceOpen disciplines: Uncategorized

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