The mechanisms that keep metabolism flexible
Please be aware that this seminar will be recorded.
You can join using the following link:
Meeting ID: 980 7012 0965
For those outside the UK you can find your local number here: https://zoom.us/u/ad86JomL1D
Life runs on many thousands of different chemical reactions, known collectively as cell metabolism. Metabolic reactions are vital for keeping cells and organisms growing and alive, and problems with cellular metabolism are implicated in ageing and diseases such as cancer, diabetes and brain disorders.
Rather than thinking about cell metabolism as a collection of individual reactions, we are working to understand metabolism as a dynamic, interconnected network of processes that adapts in response to changes and stresses in the environment, and that evolves and functions as an entity.
In this lecture, I’ll summarize our efforts in using mass spectrometry for conducting hundreds to thousands of analytical measurements, allowing us to study how these complex metabolic processes are controlled, and how they are reconfigured in response to environmental changes. By taking detailed precision measurements of the genes and molecules involved in metabolic processes and analysing this cata computationally, we can see how metabolism of a cell adapts and changes in response to various stresses. At the level of the human individual, a related set of methods can identify risk factors to human metabolic disease. And we can also see what happens when crucial parts of the system are altered or faulty as a model for human diseases, as well as derive the very basic principles of metabolism, like the ones that enabled its origin in early evolution.
8 February 2021, 12:30 (Monday, 4th week, Hilary 2021)
Professor Markus Ralser (Charité University Medicine, Berlin)
Wellcome Trust Centre for Human Genetics
Isabel Schmidt (University of Oxford, Wellcome Centre for Human Genetics)
Professor John Todd (Wellcome Trust Centre for Human Genetics, University of Oxford)
Members of the University only