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Each year, approximately 6,000 people in the UK are diagnosed with multiple myeloma. Despite advances in therapy, infections remain a leading cause of morbidity and early mortality in these patients
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mechanisms of the sexual conflict and its resolution. You will combine cutting-edge bioinformatics, genome engineering, and state-of-the-art sequencing technologies to: Identify and characterise consistent
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streams across the continent, multiple differently coloured catfish communities coexist, forming diverse mimicry “rings.” This project will use whole-genome resequencing to tackle three key questions: Which
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to post-doctoral level. They will receive hands-on training in fluorescent microscopy, fungal culture, transcriptomics, next-generation sequencing, molecular microbiology, nuclear magnetic resonance
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to the interior of the cell. GPCRs are involved in multiple physiological process including cell growth, neurotransmission, metabolism & immune response; they can misfunction in disease and consequently have served
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results align with the abundance and expression of diatom ppRHO genes in the surface oceans. Research methodology Objective 1: Identify the subcellular localisation of two different ppRHOs isolated from
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will aim to answer this, by sequencing whole genomes from the few surviving British red squirrel populations, and continental reference populations. It will also sequence historical British squirrel
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to align with their background and interests. Example topics include: Groupoid models for C*-algebras; Cartan subalgebras of C*-algebras; Semigroup C*-algebras; Ring C*-algebras; C*-algebras from algebraic
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. This PhD project will use minion nanopore sequencing of the alga’s genome and to define the alga’s transcriptome (following RNA-Seq) when grown under a range of ammonium levels. Understanding the genetic
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at scale. It is central to NWL’s nutrient neutrality and net zero ambitions. However, the alga’s biology remains a black box. This PhD project will use minion nanopore sequencing of the alga’s genome and to