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materials with high potential for H2, CO2, and other gas adsorption/storage, based on metal-organic frameworks (MOFs) and covalent organic Frameworks (COFs). These materials act like sponges capable
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to elucidate cellular and molecular mechanisms underlying DMD and healthy aging, employing iPSC-derived cellular models, skeletal muscle differentiation, and three-dimensional muscle tissue engineering
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techniques will be employed to dissect the mechanisms of recruitment of T6SS effectors to the T6SS machinery. Candidates should have experience in molecular biology techniques, protein biochemistry, structural
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genetics and cell biology applied to Duchenne Muscular Dystrophy (DMD) and aging, using induced pluripotent stem cells (iPSCs). The project aims to elucidate cellular and molecular mechanisms underlying DMD
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, with a view to circular economy. The scholarship recipient will be responsible for further investigating the interaction mechanisms involved during the sorption and desorption process, evaluating
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real scenarios; 3. Manufacture and test prototypes of optimized end plates using additive manufacturing, experimentally validating their mechanical, thermal, and electrochemical performance under
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secretion system (T6SS) found in bacteria of the Xanthomonaceae family. For that, a combination of biochemical and structural biology techniques will be employed to dissect the mechanisms of recruitment
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and electronic states; • Inductively coupled plasma techniques (ICP-OES/MS) for compositional and elemental analysis. - Familiarity with advanced characterization methods at large-scale facilities
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(ICP-OES), mass spectrometry or graphite furnace atomic absorption spectrometry (GF-AAS); 3) Experience in data analysis and statistical tools: cluster analysis and principal component analysis; 4
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of non-canonical stressors on the modulation of intracellular Ca2+ oscillations in different subdomains of renal cells and their impact on genomic integrity and the recruitment of DNA repair mechanisms