Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- ;
- ; University of East Anglia
- University of Cambridge
- University of Nottingham
- ; University of Cambridge
- ; Newcastle University
- ; University of Birmingham
- ; University of Nottingham
- ; University of Plymouth
- ; University of Reading
- ; The University of Manchester
- ; University of Exeter
- ; University of Greenwich
- ; University of Leeds
- ; University of Southampton
- Cranfield University
- ; Brunel University London
- ; Cranfield University
- ; Durham University
- ; Swansea University
- ; UWE, Bristol
- ; University of Sussex
- Brunel University
- Liverpool John Moores University
- Newcastle University
- Swansea University
- University of Aberdeen
- University of Glasgow
- 18 more »
- « less
-
Field
-
, chemical biology, and molecular biology. The candidate will work at the forefront of chemical and synthetic biology and will develop advanced skills in chemical synthesis, various molecular biology and
-
metabolites. In order to determine the molecular mechanism of tumour cell response, activation of key metabolic regulators will be assessed using standard molecular biology techniques. To better understand how
-
to present your work to international experts. We are seeking a highly motivated applicant with strong interests in microbiology, biomedical science and molecular biology. Informal enquiries are welcome
-
Applications are invited for a BBSRC-funded postdoctoral vacancy in molecular biology to join a multi-disciplinary team based at the Department of Pathology in Central Cambridge. The successful
-
these clusters, using both native and heterologous expression systems. Environment Our lab is focussed on applying structural biology methods to understand the molecular basis of how bacteria interact with
-
such as molecular cell biology/chromatin/transcription, together with proven skills obtained in a molecular cell biology lab (RNA work, mammalian cell culture, cloning and protein work). You will be able
-
candidate will be trained in an array of biochemical and molecular biology techniques (e.g. cloning, recombinant protein expression, membrane protein purification, liposome reconstitution assays, protein
-
dynamics, from the molecular to cellular level. This will contribute to our understanding of the fundamental mechanisms that underlie protein stability, drive biological processes and contribute
-
engineering methodologies. The student will gain diverse skills in molecular biology, in vitro expression, design and optimization of high-throughput biochemical assays, laboratory evolution, and analysis
-
molecular level. You’ll achieve this using a new, unique facility at the John Innes Centre to study physiology, development and gene expression in simulated future climates. By joining us for a PhD, you’ll