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experience in mammalian cell culture, organoid culture and analysis, and stem cell biology. Strong skills in molecular biology, next-generation sequencing, bioinformatics, general microscopy and confocal
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and will be able and actively participate in group analysis work and laboratory activities. You will also have knowledge of and be competent in the MS Office Suite, image analysis software, and data
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spatial, temporal and systems-based approaches to understand ecological outcomes, coexistence potential and decision-making across nationally significant case-study regions. Lead the collation, analysis and
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methodologies, including analysis of quality outcomes. Perform experiments and generate reports. Carry out sample preparation and analysis on instruments to satisfy and accomplish research outcomes. Implement
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initiative developing the next generation of smart wind turbine blades. As part of the Australian Economic Accelerator Innovate project, this role will see you contribute to the design, analysis, optimisation
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role. You will also be able to demonstrate: Well-developed skills in thematic analysis, evidence synthesis and critical summation of research evidence and grey literature. Demonstrated ability to plan
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Council and UNSW Sydney. The project seeks to advance the analysis of dynamical systems through the development of novel techniques in functional analysis, operator theory, ergodic theory, differential
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statistical genetics techniques to analyse large-scale single-cell and genomic data. Data Analysis: Process, analyse, and interpret high-throughput single-cell and genomic data to derive biologically meaningful
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: Conduct original research from planning through to analysis and reporting, ensuring alignment with the Centre’s priorities. Manage project delivery including timelines, resources, budgets, and compliance
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join a collaborative, purpose-driven research environment, leading innovative projects that integrate systems mapping, causal loop analysis, scenario modelling and market systems analysis to inform