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cutaneous wounds. Through its research and training activities, the REMOD-HEALING project will contribute to scientific advancement and innovation in wound healing and regenerative medicine through a
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, the successful candidate is expected to contribute to: the creation of a database of translation material in 1000 French and British periodicals; the establishment of a prosopography; 1 interactive map
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of these megasynthases, through a rational design approach, to alter its substrate specificity and generate variants capable of incorporating functionalized amino acids. The ultimate objective is to create strains
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, and interactions with industry and clinical environments, preparing them for diverse careers. Additionally, the network seeks to foster international, interdisciplinary, and intersectoral cooperation
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interactions, nanoparticles can form a variety of nanostructures, with many nanomaterials exhibiting polymorphism – the ability to crystallize into different structures under varying conditions. The internal
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of molecular and cellular biology. Its research covers a range of fields, from structural biology and molecular interactions to genetics, immunology, and virology, contributing to crucial advances in biology and
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Inria, the French national research institute for the digital sciences | Villeneuve la Garenne, le de France | France | about 2 months ago
applications have been organized in different steps that interact with each other. The classical first step is to describe the application through a model. Through this model, a first process is operated
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-exciton annihilation kinetics, ultrafast fluorescence anisotropy decay, or the kinetics of energy transfer to EEE acceptors. Tight interaction with theoreticians (collaborations) will allow us to
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fundamental understanding of climate change and its impacts, extending to the development of prototype climate services co-designed by stakeholders and climate modeling experts. The goal is to accelerate
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macroscopic designs for soft-tissue healing. The project will be conducted using in vitro models of bacterial adhesion and fibroblast proliferation in collaboration with University of Gothenburg and in vitro