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-motivated postdoctoral researcher with a strong background in biology and experience in bioinformatics. Experience in multiplex proteomics and sequencing analysis and a track record of effective communication
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mutations occur at preferred DNA motifs, there is substantial variation in mutation frequency between motifs, leading to the hypothesis that there exists a sequence “grammar” regulating motif mutability. Our
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of liver metastases and 2) ex-vivo MRI of human liver tissue specimens. You will be responsible for the sequence implementation, data acquisition and analysis, including biophysical models of liver tissue
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rigorous, collaborative research aligned with project goals. Develop and apply deep learning models, particularly in computer vision, NLP, and multimodal systems. Publish in peer-reviewed journals and
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outputs, stakeholder presentations, and exhibitions. Key Responsibilities Conduct high-quality research in alignment with project objectives. Collaborate with academic and industry partners to develop
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rigorous, collaborative research aligning with the project’s aims Work with academic and industry partners in the UK and Hong Kong Produce high-quality outputs including conference papers, journal articles
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on the molecular mechanism of DNA replication initiation in bacteria. This work is aimed at unravelling the sequence of events that lead to helicase loading during initiation and restart. This structural biology
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on the molecular mechanism of DNA replication initiation in bacteria. This work is aimed at unravelling the sequence of events that lead to helicase loading during initiation and restart. This structural biology
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of liver metastases and 2) ex-vivo MRI of human liver tissue specimens. You will be responsible for the sequence implementation, data acquisition and analysis, including biophysical models of liver tissue
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will be the analysis of virus sequence data generated through our surveillance activities. Surveillance will be based on next-generation sequencing of viral RNA/DNA extracted from wastewater samples. We