-
(preferably with a PhD in Physics, Cell/Molecular Biology, Chemistry, Biochemistry, Bioengineering or related disciplines) with proved experience in any area of mechanobiology. This project aims to investigate
-
linked to brain research as opportunities arise. Applicants should have a relevant PhD field and preferably post-doctorate experience in one of the following fields: pharmacy, drug delivery, cancer biology
-
Biomedical Engineering & Imaging Sciences (BMEIS) consists of eight research departments including Cardiovascular Imaging, Cancer Imaging, Imaging Chemistry & Biology, Biomedical Engineering, Perinatal Imaging
-
About us The role sits within the School of Biomedical Engineering & Imaging Sciences, and specifically within the Research Department of Imaging Chemistry and Biology based at St Thomas’ hospital
-
-edge molecular biology techniques and bioinformatics tools to advance our understanding and treatment strategies for genetic disorders. This position offers an exciting opportunity to be at the forefront
-
part of a vibrant multi-disciplinary environment across different research themes in cardiac biology. The post holder will provide high quality technical support to the groups and their associated
-
questions deeply. With strong molecular biology knowledge and experience with genomic/epigenomic approaches, you will use a range of methods for brain tissue analyses including next generation RNA sequencing
-
Immunology or related biological science An excellent theoretical and practical knowledge of the human immune system Extensive experience of immunology-focused laboratory assays Effective time management
-
About us: This post will be based at the Department of Biostatistics & Health Informatics at King’s College London within the Bioinformatics team led by Dr Alfredo Iacoangeli. Our team currently include several staff and students and we have extensive experience in the development of genomic...
-
a range of quantitative cell biology methodologies together with molecular biology, omics, lab evolution and biochemistry approaches in the two species of fission yeasts, S. pombe and S. japonicus