I am a Group Leader in Artificial Intelligence at Cancer Research UK, University of Cambridge, where my lab develops foundational AI methods for scientific discovery and interactive hypothesis generation in cancer. Our work seeks to uncover the molecular mechanisms underlying disease, with a focus on understanding cellular and patient heterogeneity and on guiding biological systems toward desired therapeutic outcomes. I hold a PhD in Computer Science and trained as a computational biologist during postdoctoral research at the Helmholtz Center in Munich and the Wellcome Sanger Institute, with a research focus on multimodal data integration, causal modelling of disease mechanisms, and generative modelling for patient stratification and treatment response prediction.

I obtained a PhD in Bioinformatics in 2014 from Uppsala University, Sweden. During my PhD, I developed expertise in machine learning methods for genomics data and focused on understanding the role of histone modifications in gene regulation. To gain more experience in genomic methods, I joined Prof Leif Andersson's group at Uppsala University as a postdoc. Here, I worked on mapping genes to function in domesticated chickens using high-throughput sequencing data. I then moved to Cambridge and joined the Cambridge Stem Cell Institute where I spent four years with Prof Michaela Frye, focusing primarily on RNA modifications and their impact on translation. When Prof Frye's lab relocated to Germany, I joined Prof Greg Hannon's group at the neighbouring institute to strengthen my skills in RNA biology and sequencing-based approaches through studies of the piRNA pathway. Supported by a Wellcome Career Development Award, I now lead a group at the Department of Biochemistry using AI and other data-driven approaches to better understand genome organisation and regulation, with a specific focus on post-transcriptional gene regulation.

https://www.sblab.uk
https://www.bioc.cam.ac.uk/research/faculty/susanne-bornelov
https://bsky.app/profile/susbo.bsky.social

I am an Assistant Professor of Computational Biology in the Department of Applied Mathematics and Theoretical Physics (DAMPT) at the University of Cambridge. My lab focuses on developing algorithmic and machine learning approaches to address key challenges in biology and medicine. Our research aims to uncover the molecular mechanisms underlying gene dysregulation through functional genomics data, quantify and mitigate privacy risks associated with sharing and analyzing omics datasets, and integrate clinical and genetic information to improve the precision of patient phenotyping. We design adaptable computational methods that keep pace with emerging data modalities and analytical demands, with particular emphasis on privacy-preserving analysis and knowledge extraction. I lead a multidisciplinary team of computational and experimental researchers and foster cross-disciplinary training opportunities within the group.

Previously:  https://datascience.columbia.edu/people/gamze-gursoy/

I am an Assistant Research Professor in the Department of Public Health and Primary Care, University of Cambridge. I work across the Cardiovascular Epidemiology Unit and the Centre for Cancer Genetic Epidemiology, and am also affiliated with the Cambridge Centre for AI in Medicine (CCAIM). My work combines methods development and applied analyses using whole-population electronic health records (EHRs). Methodological interests include causal inference, associational analyses, prediction modelling (including dynamic prediction), and missing-data methodology, with emphasis on statistical and computational efficiency for population-scale analyses, including implementation in trusted research environments under computational constraints. Application areas include COVID-19 impact and early cancer detection. I trained in mathematics (MMath, University of Cambridge) and theoretical physics (PhD, Max-Planck-Institut für Astrophysik).

https://www.phpc.cam.ac.uk/staff/dr-samantha-ip

I am a Senior Research Engineer in the Genomics Initiative at Google DeepMind in London. My work focuses on integrating deep learning with molecular biology and genomics, particularly in understanding regulatory DNA and predicting variant effects. I hold a PhD in computational biology from Cambridge University and a Biochemistry BSc from St Andrews University. Before joining DeepMind, I worked in data science and machine learning roles in gaming and natural language processing.

I am interested in the role of the adaptive immune system in ageing and disease, particularly cancer. My background is in evolutionary genomics, having studied population genomics and genome evolution during my PhD at Stanford University and somatic genomics during my postdoc at the Wellcome Sanger Institute. I approach this from the lens of somatic evolution. I use somatic mutations and evolutionary genetic methods to study the co-evolution of immune and non-immune cells, elucidating the role of the adaptive immune system in cancer progression and ageing.

https://www.machado-lab.org/

I completed my undergraduate and master’s degrees in physics at the University of L'Aquila (Abruzzo, Italy) in 2010, before moving to the Cavendish Laboratory, University of Cambridge to start my PhD in soft condensed matter physics. After graduating in 2013, I took up an Oppenheimer Early Career Research Fellowship, followed by a Leverhulme Early Career Research Fellowship in 2016 and a Royal Society University Research Fellowship in 2018. The following year, I was awarded an ERC starting grant and moved to the Department of Chemistry at Imperial College London as Lecturer and then Senior Lecturer, before returning to the University of Cambridge, Department of Chemical Engineering and Biotechnology as Assistant Professor in Biotechnology in 2022. My research group applies the toolkit of nucleic acid nanotechnology to designing advanced biomimetic systems, applicable as biophysical models or tackling challenges in biomedicine.

I completed my diploma in physics at the University of Zagreb before moving to do a DPhil in single-molecule biophysics at the University of Oxford. In 2008 I commenced postdoctoral work at Princeton University, where I established the experimental and theoretical framework needed to study bacterial pressure regulation at a single-cell level. In 2013 I was appointed a Chancellor’s Fellow at the University of Edinburgh where I established my research laboratory.  I was appointed a Professor of Biophysics at the University of Edinburgh in August 2020 and moved to Cavendish Laboratory in 2024. My lab is a biological physics lab that focuses predominantly on energy generation and pressure regulation through ion flows in unicellular organisms such as bacteria. Developing novel experimental and theoretical tools for the purpose, including state-of-the-art fluorescence imaging techniques, microfluidic devices and optical trapping techniques. While mostly driven by basic research questions we also translate our findings into real-world solutions, including co-founding startup and spinout companies.

https://pilizotalab.bio.ed.ac.uk/