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results and contribute to the writing of scientific articles. Candidate Profile: PhD in plant ecology, soil science, environmental science, or a related discipline. Proven experience in arid or degraded
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metabolism. Key Responsibilities Lead metagenomic, proteomics, and metabolomic profiling of clinical and experimental samples to identify dysbiosis signatures. Apply bioinformatics tools for microbiome data
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Ph.D. students, guiding their research work. Candidate Profile Given the multidisciplinary nature of ACER, the ideal candidate should have a broad scientific background, including: A Ph.D. in Materials
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(clinical, environmental, tumor-associated microbiomes). Develop and implement bioinformatics pipelines for resistome, mobilome, and virulome profiling using tools such as MEGARes, CARD, VFDB, and
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for selected crops. Key Responsibilities: Conduct transcriptomic, epigenomic, and metabolomic profiling of seedlings under controlled temperature priming conditions. Identify molecular markers and pathways
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metabolism Key Responsibilities Lead metagenomic, proteomics, and metabolomic profiling of clinical and experimental samples to identify dysbiosis signatures. Apply bioinformatics tools for microbiome data
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the development of research funding proposals, as needed. Assist in supervising M.Sc. and Ph.D. students, guiding their research work. Candidate Profile Given the multidisciplinary nature of ACER
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Ph.D. students, guiding their research work. Candidate Profile Given the multidisciplinary nature of ACER, the ideal candidate should have a broad scientific background, including: A Ph.D. in Materials
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technology. Candidate Profile: Ph.D. in Electrical Engineering or related field. An in-depth expertise in batteries and renewable energy systems including fault detection, diagnosis, and performance