Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
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
-
support infrastructure, including the glasswash and the CVRI Zebrafish Core. The incumbent leads a staff of seven with potential for growth as the Zebrafish Core expands. A substantial portion of their time
-
. Experience in quantitative image analysis/ modelling/ zebrafish/ cilium biology would be advantageous. The main requirement is a professional, organised, and collaborative work ethos, and a willingness to
-
- 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
-
this project unique? You will use cells isolated from human blood and innovative in vivo models in zebrafish to dive deep into the exciting world of RNA biology and immunology, exploring how ELAVL1 regulates
-
no regenerative capacity. It aims to address the functional importance of dynamic gene expression underlying spinal cord regeneration and the mechanism by which microRNAs regulate it using zebrafish as an animal
-
. The function of this structure in developmental processes will also be addressed in zebrafish as part of a collaboration. The candidate must have a Master's degree in cell biology and expertise in super
-
Technician I – Psychiatry – Behavioral Medicine and Neurosciences – Levin Be You. The Levin Lab conducts neurobehavioral research with rats and zebrafish to determine the short and long-term effects of drug
-
members Additional Duties & Responsibilities: Maintain laboratory compliance with environmental health and safety regulations Order reagents and materials and oversee inventory Maintain zebrafish colony
-
). 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