Big Data
In Utero
Stillbirth is the result of varied processes taking place within both the mother’s and baby’s organs during pregnancy – a time of rapid changes.
Advanced Research Computing
The Franklin develops state of the art digital infrastructure to enable cutting edge research. Our interdisciplinary research generates a variety of data structures and sizes that all need to be stored, curated and processed to give data driven insights.
Quantitative Biology Across Scales
Our aim: To combine innovative imaging techniques and AI to extend imaging scales from cells to tissues and organs to transform clinical practice.
Artificial Intelligence and Informatics for Predictive Biology
Our aim: To embed data management and science into all of our research groups to best use AI and machine learning to drive life sciences research and create new research tools.
Capturing Complexity: How AntigenApp Is Transforming Nanobody Discovery at the Franklin
Researchers at the Franklin studying schistosomiasis- a neglected tropical disease affecting more than 200 million people globally- have now observed the structure of a key protein thanks to a unique blend of nanobody discovery and advanced data science. Cracking the…
Moving from cells into tissue: a new tomography method
Researchers led by Dr Michael Grange at the Rosalind Franklin Institute have developed a robust molecular imaging workflow for brain tissue samples. Their approach utilises plasma ion beams, which increased the size of samples that could be extracted for imaging,…