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resonant acoustic mixing (RAM) – a relatively novel processing methodology which is of increasing industrial interest spanning multiple sectors. The project will allow the candidate to explore a number of
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Job Description Position Details Department of Applied Health Sciences, School of Health Sciences, College of Medicine and Health Location: University of Birmingham, Edgbaston, Birmingham UK Full time starting salary is normally in the range £45,943 to £77,196 Clinical Full Time, Fixed Term...
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microbiome ecology studies, including mock-community, co-culture and batch culture experiments, as well as model colon studies Bioinformatics analysis, such as QC, data processing, microbial genomic analysis
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Perform bioinformatics analyses and test different ecological processes that govern microbiota community assembly and resilience Flexibility and adaptability to working cross-sites UoBRL (BMEC and QEHB
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collected regularly from sewage-impacted rivers and from properties affected by flood events. Data will be analyses using advanced bioinformatics to characterise community structure, resistance genes and
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experiments, performing DNA extraction and next-generation sequencing (NGS), carrying out microbiome studies, and potentially contributing to bioinformatics analysis. Role Summary Work within specified research
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interpretation of the data generated and that’s where this project comes in. You’ll be applying metagenomic bioinformatics techniques to respiratory samples and developing analysis and interpretation approaches
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degree in biological or biomedical sciences, and a PhD degree in the field of microbiology Significant experience with microbiology and microbial genomics and/or microbial bioinformatics is required Able
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/ non-standard items across End User Services. The post-holder will: Process orders for Hardware and Software; this will include providing support to the existing hardware and software services function
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project will develop the first sustainable, closed-loop recycling process for polymer-bonded NdFeB magnets. The research will harness chemical recycling approaches to selectively dissolve the polymer matrix