36 multiple-sequence-alignment Postdoctoral research jobs at University of Oxford in United Kingdom
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use computational approaches to mine natural biodiversity in gene sequences to identify engineering targets to increase lipid content and enhance the water use efficiency. The project will make use
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administrative activities which involves small scale project management, to co-ordinate multiple aspects of work to meet deadlines. You will design and perform original research using in vivo disease modelling
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multiple aspects of your work to meet deadlines. In this position you will contribute ideas for new research projects including development of new grant proposals that support the ongoing research within
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project to develop a systematic framework for reconstructing the evolutionary histories of pathogens. The role involves using viral sequence data and models of sequence evolution to investigate both
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, to co-ordinate multiple aspects of work to meet deadlines. You will undertake laboratory work as required, such as sample preparation, cell culture, analysis of tumour samples and, tissue staining. Other
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” approaches the lab has pioneered, including the use of TET-Assisted Pyridine-borane Sequencing (TAPS), an innovative sequencing method that allows the simultaneous detection of mutations and methylation
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crop yield under stress conditions. The role of the individual will be as follows: (i) analyse gene and protein expression; (ii) compare amino acid and nucleotide sequence to infer phylogenetic
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experimental and computational approaches are employed to shine light into key biological processes during the life of parasitic flatworms. Large-scale sequencing datasets (‘omics’) are generated and analyzed
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channels in the brain and their relevance to bipolar disorder and other psychiatric disorders. Methods to be used include long-read sequencing, PCR, and Basescope. The postholder will also participate in
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, including murine in vivo models, as well as in vitro studies using primary in-vivo and patient samples. You will apply flow cytometry to monitor immune responses and utilize next-generation sequencing