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standard or translational humans to rats memory tasks (Sauvage et al, Nature Neuroscience, 2008) combined with lesions, optogenetics, high-resolution molecular imaging based on the detection of IEG and in
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simultaneously behavior, and brain activity at single-cell resolution in vivo. Your role in the project will be to investigate by means of in vivo two-photon imaging in behaving fish how sleep deprivation affects
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under current conditions and with respect to global change scenarios. Embedded into the inspiring academic environment of IGB and the Universität of Hamburg, RTG 2530 provides Doctoral and Postdoctoral
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to recruit candidates who demonstrate creativity and the ability to work effectively within a diverse team of international researchers, including postdoctoral researchers, PhD students, and technical
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biology, including: Genetic engineering of human malaria parasites (CRISPR/Cas9, DiCre, etc.) A broad spectrum of cutting-edge imaging methods (live-cell and time-lapse fluorescence microscopy
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-performance computing and imaging facilities. a collegial, international atmosphere and flexible, family-friendly working hours a structured PhD programme with extensive training and career-development
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to research this topic. Interest in laboratory work and basic technical understanding. Fluent written and spoken English. Programming skills in e.g. Python, R, Matlab and Java. Experience in image processing
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molecular cell identification and single-/two-photon imaging techniques. You will work at the Leibniz Institute for Neurobiology (LIN) with Prof. Stefan Remy and in close cooperation with Dr. Janelle Pakan
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in the project, including experts in genetics, genomics, rhizosphere biology, and shoot biology to use a whole-plant-systems approach. Your tasks: Root anatomical phenotyping using imaging and