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techniques. The findings will lay the groundwork for clinical application and contribute to the development of targeted therapies for resistant bacterial infections. Approach and Methods Atomic force
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: This project aims to pioneer a sustainable approach to combating antifungal resistance by enhancing the effectiveness of existing treatments. The findings could inform the development of innovative, non
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, reduce the need for systemic antibiotics, and mitigate the development of AMR in oral pathogens. The approach may also be extended to other biomedical applications involving biofilm-associated infections
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at scale. Training and Student Development: The student will gain interdisciplinary training in: Advanced molecular cloning, CRISPR-Cas systems, and genome engineering Bioreactor operation and process
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extended to other medical devices, supporting broader efforts to combat healthcare-associated infections. Training and Student Development: The student will gain interdisciplinary training in: Surface
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treatment outcomes in vulnerable populations. Training and Student Development: The student will receive interdisciplinary training in: Peptide synthesis and structural analysis Advanced mass spectrometry
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antimicrobial hospital surfaces and medical devices. • Contribute to sustainable strategies for AMR mitigation. Training and Student Development The successful applicant will gain expertise in: Microbial genetics