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Institute of Microbiology is seeking a postdoctoral associate to participate in our studies of reproductive biology in the C. elegans model system. Specifically, the candidate will contribute to our
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together to determine the lifespan of the nematode C. elegans. Our lab integrates genetics, live imaging, quantitative analysis, and computational approaches to uncover the molecular mechanisms regulating
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the nematode C. elegans. Our lab integrates genetics, live imaging, quantitative analysis, and computational approaches to uncover the molecular mechanisms regulating aging and longevity. KEY RESPONSABILITIES
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-on experience with human pluripotent stem cells, 3D cell culture systems and/or generation of organoids (especially brain organoids) Other projects in the lab involve C. elegans and prior exposure to this model
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embryonic stem cells, C. elegans , D. melanogaster , zebrafish and mouse, and have strong links with other preclinical and clinical departments, as well as the Washington University Center for Regenerative
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 1 day ago
the Department of Biology studies development, cell biology, cell migration, reproductive system biology, and genetic control thereof in the nematode worm C. elegans. We are executing funded projects studying (1
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The University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 3 months ago
, and quantitative image analyses in C. elegans. Because we study living worms, our experimental protocols sometimes require work outside of business hours. Education and Experience: Preferred experience
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, Caenorhabditis elegans, Mus musculus, and Homo sapiens, comparing short- and long-lived species. We will assess mRNA and protein expression across tissues and developmental stages, quantifying correlations between
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Max Planck Institute of Animal Behavior, Radolfzell / Constance | Radolfzell am Bodensee, Baden W rttemberg | Germany | 2 months ago
(Greenway et al., bioRxiv 2025). Together, these work pave way for combining the empirical tractability of our study system, including the model organism species C. elegans, with the relevant ecological
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for parasitic diseases (protozoan and nematode) (Barrett , Page , Britton ) use of C. elegans as a model for understanding gene function in parasitic nematodes (Britton , Page ) microRNAs and their functions in