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expertise in organoid models of neurodevelopment to join our team and be involved in a MRC funded project aimed at generating region-specific brain organoids and assembloids from multiple gene-edited human
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, including next generation sequencing is essential. The successful candidate will be highly motivated and enthusiastic with an outstanding academic track record, good communication skills and the ability
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(e.g. nanopore-based sequencing, reverse genetics, immunoblotting, luciferase-based assays, RT-qPCR, microscopy) to study virus evolution and innate/adaptive immunity in the context of viral infection
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for sequence or structural data (e.g. transformers, graph neural networks) Proved experience in working independently and as part of a multidisciplinary team Evidence of strong communication and scientific
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sequencing datasets Desirable criteria Background in mammalian cerebral cortex development 2Background in epigenetic regulators XXXX Downloading a copy of our Job Description Full details of the role and the
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lab working on aligned projects. The post would suit somebody with solid experience of working with small rodents, mouse cochlear dissection and a strong interest in auditory neuroscience. Expertise in
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various mouse models we currently have running in the lab. There will also be good opportunity to collaborate with other members of the Nolan lab working on aligned projects. The post would suit somebody
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approaches, advanced microscopy and immunological assays on fresh human tissue samples to phenotype and functionally characterise cell populations. Experience in advanced sequencing and omics analysis is
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apply a novel single muscle cell (myofiber) omic platform — developed by the PI — to interrogate ALS pathogenesis at an unprecedented level of resolution. By simultaneously analysing multiple data sets
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the PI — to interrogate ALS pathogenesis at an unprecedented level of resolution. By simultaneously analysing multiple data sets (MANT-ATP, methylome, transcriptome and proteome) derived from the same