RMS Diplomates

Congratulations to all of those who have been awarded an RMS Diploma! You can read more about their projects here:

Peter Pitrone DipRMS, Light (Sheet) Microscopy Consultant, Germany

Building a Selective Plane Illumination Microscope System on a Limited Budget

"The traditional light microscope has advanced our understanding of living systems in the last few centuries by its ability to reveal the microscopic world to us. Novel microscopy technologies allow us to monitor these living systems with ever increasing resolution in both spatial and temporal dimensions. In particular, the Selective Plane Illumination Microscopy (SPIM) promises to revolutionize research in developmental biology by capturing entire embryos with cellular resolution. My plan is to build a SPIM system on a limited budget without sacrificing its key benefits and thus make the technology available to a broad scientific community."

Kevin Smith DipRMS, MetPrep, UK

The role of Microscopy in the Preparation and Evaluation of Metallographically Prepared Materials

"It is intended within the course of this work, to determine how microscopy can be used to aid in the preparation of materials for microstructural analysis. Not only wil it look at the range of techniques to obtain the information from the fully prepared sample but will show how operators can use various aspects of microscopy to understand and develop sound technical procedures for the processes leading to that finished sample. Understanding these principles will allow metallographers to understand and employ best practice to prepare specimens correctly for later microstructural assessment."

Fredrik Wallberg DipRMS, Institute of Cancer Research, UK

Lighting up necroptosis and other types of cell death

"Necroptosis is a novel programed cell death pathway relevant for tumour cell responses to chemotherapeutic agents. In a recent study (Tenev et al., 2011), I developed a time-lapse video microscopy protocol using annexin V, PI and morphology to monitor necroptosis. In my diploma work I propose to extend these methodologies as a tool to analyse different types of cell death but with an emphasis on necroptosis. Once I have established a combination of dyes and fluorescent proteins that can distinguish several types of cell death I aim to utilise these to establish a screening platform for cell death."

Pascal Lorentz DipRMS, University of Basel, Switzerland

Characterisation of phenotypes of neuroblastma cells targeted by siRNA using a high content screening microscope and its analysis software

"Neurite outgrowth as an important step during the nervous system development is still not completely understood. During my study I want to make use of a recently acquired high content screening microscope (Operetta, Perkin Elmer) to scan neuroblastma cells where different genes have been silenced using siRNA that are known to somehow influence the neurite outgrowth process. Afterwards I will use the Columbus software from Perkin Elmer to characterise the different phenotypes and to establish an analysis process that will then be of further use to many users."

Peter Eaton DipRMS, University of Porto, Portugal

A Combined Microscopy Study of the Interactions of Nanoparticles with Cells

"The proposed study will focus on the interactions between a variety of nanoparticles, synthesized within the host group with eukaryotic and bacterial cells. Furthermore, skills will be improved in a number of microscopy techniques, namely SEM imaging and EDS analysis, TEM imaging, EDS analysis and diffraction, and biological specimen preparation. The results will contribute to projects based on toxicology of nanoparticles to mammals and antibacterial properties on nanoparticles."

Jennifer Simpson DipRMS, The Pirbright Institute, UK

The Study of Marek’s Disease Virus In Feather Follicle Epithelium

"Marek's disease virus (MDV) is an alphaherpesvirus which causes a lymphoproliferative disease in chickens. Inflection occurs by inhalation of infected dander and following a complex life cycle involving infection of B and T cells, the virus is shed from the feather follicle. Vaccination is available and prevents clinical disease however it does not prevent the shedding of virus. The feather follicle is important in the transmission of MDV as the feather follicle epithelium (FFE) is the only region where fully enveloped and infectious virus particles are assembled. This study aims to identify cell tropism and describe viral morphogenesis in the FFE using immunofluorescence and transmission electron microscopy."

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