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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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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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. 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
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bacterial factors that predispose to higher infection morbidity including certain phylogenetic groups, sequence types and virulence factors. In this project, the student will investigate the hypothesis
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approach which considers multiple interacting aspects of the water system. This research will explore how SROs can be optimised to deliver dual benefits: reducing flood risk and enhancing water security
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-and-prediction-of-cancer-evolutionary-dynamics-from-cfdna for further information. Project aims Develop a sequencing approach to detect mutations and methylation in cfDNA from cancer patients Build
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operation, is not considered in the CMF model due to the challenge to solve the multiple partial differential equations simultaneously. With the support of the combined sponsorship from the university and
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been enhanced through predictive structural biology tools such as AlphaFold, which allow accurate prediction of effector structures from primary sequence. We recently identified a number of immune
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reproductive success, combined with whole-genome sequences, from 1922 individuals. We also have samples from all four populations established from Cousin by translocation. Research Methodology & Training You can