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Instituto de Investigação e Inovação em Saúde da Universidade do Porto (i3S) | Portugal | 23 days ago
of stress in early-life stages of fish is a critical challenge for the aquaculture industry and biomedical research using zebrafish as an experimental model. In this regard, the FORTIFISH project aims
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positions renew yearly with an ideal total duration of 3 to 5 years. Appointment Start Date: Flexible (January-September 2026) Group or Departmental Website: http://hernandez-nunez-lab.com (link is external
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during development, in compositions and dosages pertinent to environmental contamination, results in neuro- and cardio-vascular defects. The person recruited will use zebrafish as a model for studying
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training. Experience must be demonstrated in zebrafish handling, maintenance, and genetic editing (CRISPR/Cas9), flow cytometry, cell sorting, and in vivo imaging, as well as in molecular cloning, qPCR, and
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Associate to join the laboratory of Dr Charles Winterhalter, focusing on investigating DNA damage repair mechanisms during Staphylococcus aureus infection (https://www.ncl.ac.uk/medical-sciences/people
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electrical activity with high resolution in space and time. We study information processing in the brains of awake, behaving mice and zebrafish. We also work on electrical signaling in other tissues
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- transparent zebrafish larvae - to unravel how sleep deprivation disrupts neural circuits and physiology that can lead to these consequences. Zebrafish share conserved sleep and stress regulation pathways with
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). About the project: Sleep deprivation can lead to cardiovascular diseases; the reason remains unknown. This project uses a powerful glass-brain vertebrate model - transparent zebrafish larvae - to unravel
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additional assests will be prioritzed: Experience in sarcoma research or related cancer models Familiarity with epigenetic mechanisms and chromatin biology Experience with zebrafish models of cancer Strong
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molecular and cellular mechanisms governing centrosome function, cytoskeletal organization, and tissue morphogenesis. Using zebrafish and cell culture models, the lab integrates advanced live-cell imaging