Computational Postdoctoral Fellow - Spatial Genomics
Job Description
Do you want to help us improve human health and understand life on Earth? Make your mark by shaping the future to enable or deliver life-changing science to solve some of humanity’s greatest challenges.
The Cellular Genomics Programme is seeking a Postdoctoral Fellow to work on integrating mutational and spatial transcriptomic datasets in the Lee-Six group. The group is focused on studying the earliest stages of childhood cancer by investigating the conditions under which cells with particular cancer-driving mutations gain a selective advantage over their healthy neighbours. This position will be for a 2 year fixed term contract.
About the Team:
Henry Lee-Six is a paediatric pathology registrar. His previous work has been focused on somatic mutations in normal tissues. He is starting a new group in the Cellular Genomics Programme with the aim of understanding the interplay between somatic mutations and development in childhood cancer. A major goal of the group is to investigate the relative contribution of mutation identity, cell state, and microenvironmental context in determining whether a mutant cell progresses to form a tumour. The group pursues this line of research by studying samples of children’s tumours and normal tissues with cutting-edge spatial transcriptomic platforms coupled to different mutation-calling technologies such as laser capture microdissection and duplex sequencing. These data are used to build models of what determines a cell’s selective advantage, which are in turn used to identify perturbations to a cell’s state or microenvironment that might change the relative fitness of a mutant clone. These in silico predictions are then tested in vitro using iPSC and cell-line models. The group is a mixture of wet and dry lab researchers and clinicians and collaborates closely with other teams in the Cellular Genomics Programme and the wider Institute.
About the Role:
You will analyse large spatial genomics datasets of normal tissues and paediatric malignancies. A large part of the role will be to develop new methods to call somatic mutations directly from spatial transcriptomic data, and to integrate these with the transcriptomic profiles themselves and with mutational data derived from other modalities. You will work closely with other lab members working on complementary computational and wet lab projects, and will collaborate with other teams within the Institute and beyond. You will contribute to the day-to-day supervision of students.
About you:
You understand key concepts in genomics, data processing, and high-throughput data analysis. You will ideally have experience in the management and analysis of very large datasets. You have the clarity of thought to understand complex computational concepts, apply them to address proposed biological questions, and present the results to a diverse audience.
Essential Skills:
Technical Skills:
A PhD in computational biology, bioinformatics, biostatistics or a related scientific discipline or on track to be awarded within 6 months of starting the role
Experience in the fields of genomics, data processing and high-throughput data analysis
Extensive experience in a research environment with an established track record of productivity
Proficiency in one or more programming and scripting languages (R, Python, Bash)
Competencies and Behaviours:
Strong time management and organizational skills, with the ability to meet deadlines
Demonstrated commitment, problem-solving skills, and meticulous attention to detail
Ability to summarise complex information and communicate to a wide variety of audiences in a concise and logical manner
Enthusiastic and proactive attitude, coupled with a strong desire to learn
Demonstrates inclusivity and respect for all
Other Information:
For further information, please see the role profile.
Salary per annum (dependent upon skills and experience): £38,570-£49,893
Application Process:
Please apply with your CV and a Cover letter outlining how you meet the criteria set out above and in the role profile.
Closing Date: 2nd July 2026
Interviews will take place mid-end July 2026
Hybrid Working at Wellcome Sanger:
We recognise that there are many benefits to Hybrid Working; including an improved work-life balance, with more focused time, as well as the ability to organise working time so that collaborative opportunities and team discussions are facilitated on campus. The hybrid working arrangement will vary for different roles and teams. The nature of your role and the type of work you do will determine if a hybrid working arrangement is possible.
Equality, Diversity and Inclusion:
We aim to attract, recruit, retain and develop talent from the widest possible talent pool, thereby gaining insight and access to different markets to generate a greater impact on the world. We have a supportive culture with the following staff networks: LGBTQ+, Parents and Carers, Disability, Gender Equity and Race Equity to bring people together to share experiences, offer specific support and development opportunities and raise awareness. The networks are also a place for allies to provide support to others.
We believe people do their best work when they can be their authentic selves. That’s why we’re committed to creating a truly inclusive culture at Sanger Institute. We will consider all individuals without discrimination and are committed to creating an inclusive environment for all employees, where everyone can thrive.
Our Benefits:
We are proud to deliver an awarding campus-wide employee wellbeing strategy and programme. The importance of good health and adopting a healthier lifestyle and the commitment to reduce work-related stress is strongly acknowledged and recognised at Sanger Institute.
Sanger Institute became a signatory of the International Technician Commitment initiative In March 2018. The Technician Commitment aims to empower and ensure visibility, recognition, career development and sustainability for technicians working in higher education and research, across all disciplines.