124 research outputs found

    Roadmap Umwelttechnologien 2020 - State-of-the-Art-Report (Kurzfassung)

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    Globale Umweltprobleme wie der Klimawandel, die Verknappung des Süßwasserdargebots, der Verlust an Biodiversität oder der rasant steigende Verbrauch nicht erneuerbarer Rohstoffe werden den Handlungsdruck im Umweltbereich in den nächsten Jahrzehnten deutlich erhöhen. Obwohl viele der heutigen Umweltprobleme direkt oder indirekt durch Technik verursacht sind, beinhalten moderne Umwelttechnologien gleichzeitig das Potential zu ihrer Bewältigung. Vor diesem Hintergrund untersucht das BMBF-Projekt „Roadmap Umwelttechnologien 2020“ welche Beiträge Forschung und Technik für künftige Umweltinnovationen leisten können. Ziel des Projekts ist es, strategische Handlungsoptionen für die Forschungsförderung und die Unterstützung des Wissenstransfers in die Praxis aufzuzeigen. Als erstes Ergebnis des Projekts wurden in einem umfassenden State-of-the-Art-Report, Umweltprobleme und zugehörige technische Lösungsansätze entlang von sieben Umwelthandlungsfeldern dargestellt. Diese sind: Klimaschutz, Luftreinhaltung, Wasserschutz, Bodenschutz, Schonung endlicher Ressourcen, Abfallwirtschaft, Erhalt von Natur und Biodiversität. Der Report gibt einen umfassenden Überblick über reife Technologien und ihr Marktumfeld, neue Technologien und ihre Potentiale sowie mögliche Hemmnisse, die der Weiterentwicklung und Marktdurchdringung im Weg stehen. In der hier vorgelegten Kurzfassung des State-of-the-Art-Reports sind wesentliche Ergebnisse aus den sieben Handlungsfeldern zusammengefasst. Jedem Handlungsfeld ist ein so genannter „Kompass“ zugeordnet, der das Beziehungsgeflecht von Problemen, Lösungsansätzen und Technologien grafisch darstellt

    Structure and Functional Analysis of the RNA- and Viral Phosphoprotein-Binding Domain of Respiratory Syncytial Virus M2-1 Protein

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    Respiratory syncytial virus (RSV) protein M2-1 functions as an essential transcriptional cofactor of the viral RNA-dependent RNA polymerase (RdRp) complex by increasing polymerase processivity. M2-1 is a modular RNA binding protein that also interacts with the viral phosphoprotein P, another component of the RdRp complex. These binding properties are related to the core region of M2-1 encompassing residues S58 to K177. Here we report the NMR structure of the RSV M2-158–177 core domain, which is structurally homologous to the C-terminal domain of Ebola virus VP30, a transcription co-factor sharing functional similarity with M2-1. The partial overlap of RNA and P interaction surfaces on M2-158–177, as determined by NMR, rationalizes the previously observed competitive behavior of RNA versus P. Using site-directed mutagenesis, we identified eight residues located on these surfaces that are critical for an efficient transcription activity of the RdRp complex. Single mutations of these residues disrupted specifically either P or RNA binding to M2-1 in vitro. M2-1 recruitment to cytoplasmic inclusion bodies, which are regarded as sites of viral RNA synthesis, was impaired by mutations affecting only binding to P, but not to RNA, suggesting that M2-1 is associated to the holonucleocapsid by interacting with P. These results reveal that RNA and P binding to M2-1 can be uncoupled and that both are critical for the transcriptional antitermination function of M2-1

    Identification of Allele-Specific RNAi Effectors Targeting Genetic Forms of Parkinson's Disease

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    Parkinson's disease (PD) is a progressive neurological disorder affecting an estimated 5–10 million people worldwide. Recent evidence has implicated several genes that directly cause or increase susceptibility to PD. As well as advancing understanding of the genetic aetiology of PD these findings suggest new ways to modify the disease course, in some cases through genetic manipulation. Here we generated a ‘walk-through’ series of RNA Pol III-expressed shRNAs targeting both the α-synuclein A30P and LRRK2 G2019S PD-associated mutations. Allele-specific discrimination of the α-synuclein A30P mutation was achieved with alignments at position 10, 13 and 14 in two model systems, including a heterozygous model mimicking the disease setting, whilst 5′RACE was used to confirm stated alignments. Discrimination of the most common PD-linked LRRK2 G2019S mutation was assessed in hemizygous dual-luciferase assays and showed that alignment of the mutation opposite position 4 of the antisense species produced robust discrimination of alleles at all time points studied. Discrimination at this position was subsequently confirmed using siRNAs, where up to 10-fold discrimination was seen. The results suggest that RNAi-mediated silencing of PD-associated autosomal dominant genes could be a novel therapeutic approach for the treatment of the relevant clinical cases of PD in future

    Efficient Cellular Release of Rift Valley Fever Virus Requires Genomic RNA

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    The Rift Valley fever virus is responsible for periodic, explosive epizootics throughout sub-Saharan Africa. The development of therapeutics targeting this virus is difficult due to a limited understanding of the viral replicative cycle. Utilizing a virus-like particle system, we have established roles for each of the viral structural components in assembly, release, and virus infectivity. The envelope glycoprotein, Gn, was discovered to be necessary and sufficient for packaging of the genome, nucleocapsid protein and the RNA-dependent RNA polymerase into virus particles. Additionally, packaging of the genome was found to be necessary for the efficient release of particles, revealing a novel mechanism for the efficient generation of infectious virus. Our results identify possible conserved targets for development of anti-phlebovirus therapies

    Longitudinal Tracking of Human Fetal Cells Labeled with Super Paramagnetic Iron Oxide Nanoparticles in the Brain of Mice with Motor Neuron Disease

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    Stem Cell (SC) therapy is one of the most promising approaches for the treatment of Amyotrophic Lateral Sclerosis (ALS). Here we employed Super Paramagnetic Iron Oxide nanoparticles (SPIOn) and Hoechst 33258 to track human Amniotic Fluid Cells (hAFCs) after transplantation in the lateral ventricles of wobbler (a murine model of ALS) and healthy mice. By in vitro, in vivo and ex vivo approaches we found that: 1) the main physical parameters of SPIOn were maintained over time; 2) hAFCs efficiently internalized SPIOn into the cytoplasm while Hoechst 33258 labeled nuclei; 3) SPIOn internalization did not alter survival, cell cycle, proliferation, metabolism and phenotype of hAFCs; 4) after transplantation hAFCs rapidly spread to the whole ventricular system, but did not migrate into the brain parenchyma; 5) hAFCs survived for a long time in the ventricles of both wobbler and healthy mice; 6) the transplantation of double-labeled hAFCs did not influence mice survival
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