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biomolecules that work together and are involved in cellular processes and in disease. More information For more information, please contact Marc Baggelaar external link at m.p.baggelaar@uu.nl . Do you have a
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biomolecules that work together and are involved in cellular processes and in disease. More information For more information, please contact Marc Baggelaar external link at m.p.baggelaar@uu.nl . Do you have a
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to the above mentioned topics, using a combination of techniques ranging from mathematics, algorithm design and implementation, to computer experiments and design research; publish, present and share your
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passionate about understanding how these viruses utilize glycans to infect cells. You will be working with the latest tools, like glycan and tissue arrays, to figure out which glycan markers could signal
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to changes in the expression of developmental genes. But these changes can be subtle and large numbers of genes and their regulatory elements are involved, making this process difficult to understand. Research
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research efforts to understand competitive interactions in tissues. This process, which is in origin crucial for the development of tissues, can be used by tumours to boost their growth potential. We want
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to their tipping point. While both subsystems have been studied in isolation, it is yet largely unknown how they may interact and affect each other’s tipping behaviour. For example, an AMOC collapse could
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of these subsystems have been marked as tipping elements and global climate change seems to push both to their tipping point. While both subsystems have been studied in isolation, it is yet largely unknown how they may
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to centuries. EMBRACER has a dedicated outreach programme: Tipping Point Ahead. Collaborating with the KlimaatHelpdesk external link and other partners, the goal of Tipping Points Ahead is to inform