Sort by
Refine Your Search
-
, metastasis, and therapeutic response. We characterise human breast tumour ecosystems using highly multiplexed tissue analysis via imaging mass cytometry and sophisticated image processing. Quantitative
-
pathogen interface in atomic level detail. The key focus for this role will be to study key innate immune signaling complexes using state-of-the-art cryo-EM image reconstruction approaches including single
-
. The projects will be based around the development of advanced magnetic resonance techniques to optimise heterogenous catalysts and the operation of the reactor in which the catalysis occurs. Two projects
-
symbionts and corals during cnidarian morphogenesis with an aim to inform our understanding of fundamental biological processes and coral reef ecosystem recovery approaches. Using molecular, cellular
-
analysis. A background in biophysics and image analysis algorithms is desirable, whilst prior experience with protein aggregation assays and microfluidics is an advantage, but not required. Applicants will
-
specialist area in optics, including single-molecule confocal and fluorescence microscopy, along with designing and engineering of purpose-specific optical setups. Prior experience with image recognition
-
most of these: Mouse experimental procedures (existing UK PIL highly valued), tissue processing, isolation and phenotyping/manipulation of cells using: Advanced flow cytometry Immunological assays
-
to the hydrogen is required. The aim of this project is to apply a broad spectrum of magnetic resonance imaging methods to compare the levels of carbon dioxide and hydrogen entrapment in different rock core types