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Field
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. The main objective of this project is to unravel the molecular mechanisms of virus self-assembly. RNA-containing viruses are complex, nanometre sized particles with at their centre proteins covering the RNA
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participation in: • preparation of Plasma-Focus PF-24 for experiments with laser ablation of boron and measurement of charged particles emitted in the p-B reaction, • analysis of the efficiency and
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natural field conditions and the interactions between these particles and soil-plant systems. Key aspects of the research include: • Conducting controlled flow experiments to replicate the deposition
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for launch in 2025 to explore the details of particle acceleration and the Sun's interaction with the local interstellar medium. See https://spacephysics.princeton.edu/ for more information about the Space
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mechanisms of virus self-assembly. RNA-containing viruses are complex, nanometre sized particles with at their centre proteins covering the RNA. We want to find out how these complex assemblies are built up
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particles have many unique shapes not encountered for bacterial and eukaryotic viruses. We focus on the infection strategies of archaeal viruses and study the molecular mechanisms underlying essential steps
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specialized branch of the immune response primarily orchestrated to combat extracellular particles, by removing or encapsulating them. Main orchestrators are T helper 2 (Th2) and innate Lymphoid cells, which
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Associação do Instituto Superior Técnico para a Investigação e Desenvolvimento _IST-ID | Portugal | 13 days ago
founds Workplan: Exploring the extension of plasma-based wakefield advantages to decaying particles like muons, pions and kaons. Furthermore, plasma instabilities studies done in the framework of the AWAKE
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in preparing quantum states of nanoparticles serving as mechanical systems [2] and scaling up the system size to multi-particle arrays [3,4]. By leveraging quantum and many-body resources in levitated
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particles - in promoting inflammation and fibrosis, and work to identify specific biomarkers of exposure and associated risks in human and mouse models. Develop and evaluate therapeutic strategies to target