Scientific research at the Sanger Institute is organised into five Scientific Programmes, each defining a major area of research with a particular biological, disease or analytic focus. The current Programmes at the Sanger Institute are Cancer, Ageing and Somatic Mutation, Cellular Genetics, Human Genetics, Parasites and Microbes and Tree of Life. Studies from all programmes provide insights into human, pathogen, cellular evolution, the phenotypic and hence biological consequences of genome variation and the processes which cause mutations.
Somatic Genomics Programme Provides leadership in data aggregation and informatics innovation, develops high-throughput cellular models of cancer for genome-wide functional screens and drug testing, and explores somatic mutation's role in clonal evolution, ageing and development. This Programme includes the
Cancer Genome Project.
Cellular Genomics Programme Explores human gene function by studying the impact of genome variation on cell biology. Large-scale systematic screens are used to discover the impact of naturally occurring and engineered genome mutations in human induced pluripotent cells (hIPSCs), their differentiated derivatives and other cell types. It is one of the founder programmes driving the creation and organisation of the international
Human Cell Atlas initiative.
Human Genetics Programme The institute's research in
human genetics focuses on the characterisation of
human genetic variation in health and disease. Aside from the institute's contribution to the
Human Genome Project, researchers at the Sanger Institute have made contributions in various research areas relating to disease, population comparative and
evolutionary genetics. In January 2008, the launch of the
1000 Genomes Project, a collaboration with scientists around the globe, signalled an effort to sequence the genomes of 1000 individuals in order to create the "most detailed map of human genetic variation to support disease studies". The data from the pilot projects was made freely available in public databases in June 2010. In 2010, the Sanger Institute announced its participation in the UK10K project, which will sequence the genomes of 10,000 individuals to identify rare genetic variants and their effects on human health. The Sanger Institute is also part of the
International Cancer Genome Consortium, an international effort to describe different cancer
tumour types. It is also part of the
GENCODE and
ENCODE research programmes to create an encyclopaedia of DNA elements. The Programme applies genomics to population-scale studies to identify the causal variants and pathways involved in human disease and their effects on cell biology. It also models developmental disorders to explore which physical aspects might be reversible.
Pathogens and Microbes Programme Investigates the common underpinning mechanisms of evolution, infection and resistance to therapy into bolster understanding of
bacteria,
viruses and
parasites, with a particular interest in
malaria. It also explores the effects of genome variation on the biology of
host–
pathogen interactions, in particular host response to infection and the role of microiotia in health and disease. All the genomes after sequencing are made available at the web-based onsite-maintained database, GeneDB.
Generative Genomics Programme Uses Sanger's computational facilities to build computational models that generate foundational datasets and enable the understanding and prediction of the outcome of altering individual nucleotides in every genome. Large-scale sequencing experiments generate datasets from which changes in DNA sequence can show alterations in RNA, proteins and cellular networks.
Tree of Life Programme The Tree of Life Programme was created in 2019 to investigate the diversity of complex organisms found in the UK through sequencing and cellular technologies. It also compares and contrasts species' genome sequences to unlock insights into evolution and conservation. This Programme will play a leading role in the Darwin Tree of Life Project, a UK-wide initiative to sequence the genomes of all 66,000 complex species (
eukaryotes) in the British Isles.
Collaborations Much of the Sanger Institute's research is carried out in partnership with the wider
scientific community; over 90 percent of the institute's research papers involve collaborations with other organisations. Significant collaborations include: •
1000 Genomes Project •
GENCODE and
ENCODE (ENCyclopedia Of DNA Elements) •
International Cancer Genome Consortium •
International HapMap Project •
International Knockout Mouse Consortium •
International Mouse Phenotyping Consortium • SNP (
Single nucleotide polymorphism) Consortium • The Copy Number Variation Project • The
genome sequencing of
S. pombe,
C. elegans,
mouse and the
Malaria parasite. • The
Human Genome Project • The UK 10,000 Genomes Project (UK10K)
Public engagement The Sanger Institute has a programme of
public engagement activity. The programme aims to make complex biomedical research accessible to a range of audiences including school students and their teachers, and local community members. The Communication and Public Engagement programme aims to "encourage informed discussion about issues relevant to Sanger Institute research" The institute hosts visits for more than 1,500 students, teachers and community groups per year. Visitors may meet scientific staff, tour the institute and its facilities, and participate in ethical debates and activities. The programme also offers professional development sessions for teachers of
GCSE and post 16 science through the national network of
Science Learning Centres, and by hosting visits for groups interested in updating their knowledge in contemporary genetics.
Videoconferencing into the Sanger Institute is also offered for Science Learning Centres, Science Centres and schools. Scientific and public engagement staff also collaborate on and contribute to national projects such as the UK's
InsideDNA traveling exhibition and the
Who am I? gallery at
The Science Museum. They also participate in public events such as the Cambridge Science Festival.
Graduate training The institute operates two PhD training programmes: a four-year course for basic science graduates, and a three-year course for clinicians. The four-year course requires students to rotate around three different laboratories in order to broaden their scientific horizons before choosing a PhD project. Each student is required to choose at least one experimental and one informatics-based rotation project. The institute houses approximately 50 pre-doctoral students, all of whom are registered at the
University of Cambridge. ==Officers==