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community and beyond Build practical expertise in molecular genetics, cell culture, plasmid assembly, sequencing, and zebrafish models Full time, fixed term position for 3 years based in Hobart About the
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for tissue engineering and birth defects. We study the developing zebrafish heart, which allows advanced optical, genetic, and biophysical manipulation. Using a systems biology approach, we integrate tissue
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implications for tissue engineering and birth defects. We study the developing zebrafish heart, which allows advanced optical, genetic, and biophysical manipulation. Using a systems biology approach, we
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applications for research in larval zebrafishg neuroscience. The general goal of our laboratory is the development of the larval zebrafish as a model system for the comprehensive identification and examination
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zebrafish as a primary model system for our work, where the developing heart can be visualised in living animals in real time. Please visit our website to find out more about Toby's research. About the role
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hiring, with experience in working with living organisms, namely Danio rerio (zebrafish). . Duration of the fellowship: The fellowship will have a duration of 6 months, eventually renewable until the end
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molecular analysis (transcriptomics, metabolomics) of zebrafish embryo models. They will develop transgenic and mutant models for transcriptional regulation of post-transcriptional mRNA fate focussing
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for asking questions about transcriptional regulation mechanisms of developmental gene expression. They will apply molecular phenotyping approaches such as high resolution genomics technologies in zebrafish
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resilience behaviours in Asian Seabass in farm conditions using laboratory model zebrafish and controlled lab studies on early-stage Seabass. The candidate will work with a dynamic team spanning basic
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to stressors in fish. The aim will be to integrate technology to develop the knowledge base for understanding stress resilience behaviours in Asian Seabass in farm conditions using laboratory model zebrafish and