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will work in Dr. van Oosten-Hawle’s lab under the current NIH R01 grant. The student researcher is expected to maintain the lab’s C. elegans frozen database, maintain C. elegans growth, restock C
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organism C. elegans to identify new mediators of this transcription stress response. These new mediators will subsequently be functionally characterized using genetic and cell biological analysis, in
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the nematode C. elegans , with an emphasis on X-chromosome dosage compensation, which balances gene expression between XX hermaphrodites and XO males, and the specification of sexual fate. Previous work by
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mechanochemically-driven cell polarization evolves. You will focus on polarization of the C. elegans one-cell embryo, which is essential for establishment of one of the main body axes. This polarization event
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, computational, and microscopic techniques to analyze behavioral and neuronal changes in C. elegans using a specialized microscopy, imaging platforms and computer vision analyses. Also assist with lab organization
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for the model nematodes C. elegans and C. remanei . Associated projects entail CRISPR/Cas9 genetic engineering, experimental evolution, genomics, and field sampling. The selected candidate will also mentor
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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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offers a PhD position on the role of macromolecular crowding in ageing and neurodegenerative diseases, studied in the model organism C. elegans. Your job The living cell is highly crowded with
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C. elegans and its natural parasites. Associated projects entail evolve-and-resequencing, quantitative trait mapping, and field sampling with spatial analyses. The selected candidate will also mentor
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to support daily lab operations and contribute to ongoing Caenorhabditis elegans research. This position plays a key role in maintaining the lab’s long-term C. elegans population systems, which require precise