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model to resolve wheat planting strategies that can be used to safeguard biodiversity and suppress rust outbreaks. Training You will be embedded in the international and multidisciplinary Saunders Lab
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Cambridge Institute (CRUK CI), to investigate the molecular mechanisms of small RNA-mediated chromatin silencing. As a whole, the Hannon laboratory has broad interests that range from discovery research
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will investigate the mechanisms of skeletal muscle disuse atrophy and test strategies to prevent the loss of muscle mass and function. Experimental models of disuse, including limb immobilisation and bed
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of membrane Proteins and Receptors (COMPARE).3 We will focus on FFA44 and NTSR1 as model GPCRs. Building on our groups expertise in development of covalent chemical probes5 and protein labelling methods,6 a
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computational modelling of evolutionary dynamics to propose new therapeutic strategies for adaptive intervention Where to apply Website https://www.icr.ac.uk/study-and-careers/phds-at-the-icr/our-phd-application
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: Advanced molecular and protein analysis Mass spectrometry-based imaging Multi-omics technologies Preclinical cardiometabolic animal models They will also gain professional development in data stewardship
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interdisciplinary training in plant genomics, bioinformatics, and statistical modelling, as well as practical skills in horticulture, experimental design, and data analysis. Working in the De Vega Lab at the Earlham
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record, in many areas of breast cancer including pathology; cell, molecular and radiation biology/radiotherapy; medical oncology/chemotherapy; translational oncology; clinical trials; pre-clinical models
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scattering with computer modelling such as molecular dynamics simulations and AI-assisted data mining. The new technical capabilities will help bridge the current gap in biocide development, i.e., to link
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-specific TEM protocol will be used to reveal their subcellular localisation. This work will be done at UEA and IOCAS (Prof. Shan Gao). Objective 2: Using the genetically tractable model diatom Phaeodactylum