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via protein crystallography. - Development of a pipeline for protein design with existing software. These includes software for fold generation, sequence generation and structure prediction, and should
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stakeholders, including hardware vendors and research communities focused on emerging technologies, to ensure the project's success and alignment with broader research goals. You will prepare and present
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alignment with broader research goals. You will prepare and present research findings at academic conferences and in peer-reviewed journals. You will mentor other junior researchers and PhD students involved
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, project partner). Activities Conduct research aligned with the mission, covering the scientific fields listed below. Job Constraints The position requires close collaboration with several project partners
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the biomechanical properties of animal and plant biological tissues. - activities: # Develop and validate MRI sequences dedicated to MRE on the 9.4 T scanner and adapt them to 3 T systems (horizontal preclinical and
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: - Start by familiarizing with existing research and methods for genome interpretation (GI NNs, LMMs, GWAS). - Familiarize with the sequencing data - Develop and benchmark MENN prototypes on sequencing
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pediatrics. It relies on a large cohort of children to perform exome sequencing and clinical phenotype analyses, with the aim ofimproving the screening and management of these pathologies. Ultimately
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cell biology experiments (cell culture, transfection, genome editing, etc.) • Preparing libraries for high-throughput sequencing (RNA-seq, Nanopore sequencing, etc.) and using bioinformatics tools
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will be to generate the mitogenomic data and, then, to integrate and analyze all datasets. -- Generation of mitogenomic data (high-throughput sequencing and bioinformatic analyses) -- Phylogenetic and
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-epithelial crosstalk in colorectal cancer initiation, progression and therapy resistance. Using state-of-the-art single-cell RNA sequencing (scRNAseq) and spatial transcriptomics on CRC patient samples, we