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a powerful model for uncovering muscle-specific protective processes. Yet, significant gaps in our knowledge have hampered advancement in this field including the lack of molecular markers and
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43,000 students work to create knowledge for a better world. You will find more information about working at NTNU and the application process here. ... (Video unable to load from YouTube. Accept cookie and
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Max Planck Institute for Evolutionary Biology, Plön | Plon, Schleswig Holstein | Germany | about 2 months ago
genetic architecture of female body size using GWAS. In a parallel evolve and re-sequence (E&R) project, D. simulanspopulations will be experimentally evolved for larger body size. The availability
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that govern T-cell aging remain poorly understood. Previous research suggests that mitochondrial oxidative phosphorylation (OXPHOS) and other key metabolic processes influence T-cell fate decisions. Targeting
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between genes. Techniques used will include the construction and validation of large DNA variant libraries, high-throughput pooled selection experiments, bioinformatics and machine learning About the lab
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to changes in the expression of developmental genes. But these changes can be subtle and large numbers of genes and their regulatory elements are involved, making this process difficult to understand. Research
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phosphorylation (OXPHOS) and other key metabolic processes influence T-cell fate decisions. Targeting these pathways could provide novel strategies to mitigate immune aging and enhance immune responses in older