Sort by
Refine Your Search
-
Category
-
Program
-
Field
-
cells and the malfunction of proteasomes in pathological cells. You will use a multidisciplinary approach (protein extraction from donor tissues and established cell lines, fluorescence imaging and
-
to investigate the role of IL-5 in suppressing anti-viral immunity in bronchial epithelial cells and blood monocytes/dendritic cells in asthma. You will be based within the Airway Diseases Section where you will
-
and regulations required for this. Extraction of different cell components from tumours/ascites for primary cell culturing, growth and maintenance of 3D models such as organoids or tumour explants
-
assembly, automated molecular biology workflows and cell culture, next generation sequencing, state-of-the-art imaging and mass spectrometry platforms at the Child lab , London Biofoundry and Agilent
-
projects characterising the epigenome of midbrain cell-types for the interpretation of Parkinson’s Disease susceptibility. You will be based at the Imperial College London under the immediate guidance of Dr
-
Requirements: PhD in immunology or equivalent vocational qualification Work independently and be competent in general lab techniques, including cell culture, qPCR, ELISA, WB, bioinformatics and data analysis
-
model to study the influence of the gut microenvironment on angiogenesis. This will be used for studies on patients’ and gene edited endothelial cells, to interrogate molecular pathways and test new
-
Knowledge & experience with mammalian cell culture and basic molecular techniques such & PCR Experience with preparation of human biosamples (e.g. serum/plasma) Knowledge & experience of NMR-based
-
assembly, automated molecular biology workflows and cell culture, next generation sequencing, state-of-the-art imaging and mass spectrometry platforms at London Biofoundry and Agilent Measurement Suite
-
being part of a larger Programme Grant in collaboration with Oxford and Bristol and funded by EPSRC. Synthetic biology has made it possible to repurpose cells to operate as microscale factories, energy