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to the designated supervisor for consideration. The awarding of the PhD scholarship is contingent upon successfully passing the interview process. Background in cell biology and biomedical science is highly desired
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As an AUFRANDE researcher, you will: be enrolled in doctoral programs at two entities in France and Australia, with the chance to be awarded dual doctorates work on innovative projects of high commercial and societal value be recruited under a French employment contract, including social...
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In this cross-disciplinary study, we will correlate inflammatory status and epigenetic monocyte programming, with depression in young and elderly, and male and female volunteers. In this cross-disciplinary study, we will correlate inflammatory status and epigenetic monocyte programming, with...
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to the designated supervisor for consideration. The awarding of the PhD scholarship is contingent upon successfully passing the interview process. Basic knowledge in cell biology is highly desired. Basic knowledge in
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for this scholarship you must: Have a first-class Honours degree (or equivalent Masters by Research) in physics, chemistry, biophysics, biology, engineering or related discipline Be an Australian citizen, Australian
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condensed matter physics, physical chemistry or biology Possess a strong interest in biological problems using physical and chemical theory and computer-based techniques Meet RMIT’s entry requirements
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, statistical and bioinformatic algorithms for the analysis of microscopic images and data obtained by various biochemical and biological assays. You will be part of and mentored by a multidisciplinary team
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cryopreservation protocols for specific reproductive cells by tailoring a number of variables. This project is ideal for candidates with a background in embryology or reproductive biology but would also suit broader
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to an RMIT full Scholarship This Scholarship will be available for 3.5 years. Applicants need to have a background in immunology or cancer biology, preferably cancer immunology and most preferably ovarian
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will involve a novel comprehensive approach, including analyses of cellular fate such as reduction/oxidation in diverse biological fluids, tumour cells and tissues, the transport into and within cells