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Great ideas of biology
Wed 15 February 2017, 17:30 – 20:30 GMT
This event is free to attend
Professor Sir Paul Nurse, Director of the Francis Crick Institute, presents the 10th annual Peter Lindsay lecture.
Tea and biscuits will be served from 16.45.
Lecture starts at 17.30
Three of the great ideas of biology are the gene theory, the theory of evolution by natural selection, and the proposal that the cell is the fundamental unit of all life. When considering the question of what is life these ideas come together, because the special way cells reproduce provides the conditions by which natural selection takes place allowing living organisms to evolve. A fourth idea is that the organization of chemistry within the cell provides explanations for life’s phenomena. A new idea is the central role that information management plays in generating biological organization. These ideas are also relevant for what it is to be human.
Sir Paul Nurse was born in Norfolk and raised in London, where he attended Harrow County Grammar School. In 1970 he received a degree in biology at the University of Birmingham and a PhD in 1973 from the University of East Anglia for research on amino acid pools Candida utilis.
After spending several months in Urs Leupold's laboratory in Bern, Switzerland, where he learned classical genetics of fission yeast, he went to the laboratory of Murdoch Mitchison at the University of Edinburgh for postdoctoral studies on the cell cycle. Here, between 1973-1979, he used a classical genetic approach to study the cell cycle by identifying and studying a set of cell cycle defective mutants that have formed the basis of much of his future work. From this work Paul identified the cdc2 gene in the yeast Schizosaccharomyces pombe and showed that it controlled the progression of the cell cycle from G1 phase to S phase and the transition from G2 phase to mitosis.
In 1979 he set up his own laboratory at the University of Sussex. Here he developed techniques that allowed him to clone the cdc2 gene from fission yeast and show that it encoded a protein kinase.
In 1984, Paul joined the Imperial Cancer Research Fund (ICRF; this became Cancer Research UK in 2002) and in 1987 he identified the human cdc2 homologous gene, Cdk1, which codes for a cyclin dependent kinase. He left ICRF in 1988 to chair the Department of Microbiology at the University of Oxford. Here he continued his work on the cell cycle but also initiated new research areas to study cell form and genomics. He returned to the ICRF as Director of Research in 1993, and in 1996 became Director General of the ICRF and in 2002 the Chief Executive of Cancer Research UK.
In 2003, Paul became President of Rockefeller University in New York City where he continued to work on the cell cycle, cell form and genomics of fission yeast.
In 2010, he became the first Director and Chief Executive of the Francis Crick Institute in London and President of the Royal Society.
Paul was awarded the 2001 Nobel Prize in Physiology or Medicine along with Leland Hartwell and Tim Hunt for their discoveries of protein molecules that control the division (duplication) of cells in the cell cycle.
In 1989 he was elected a Fellow of the Royal Society (FRS) and in 1995 he received the Royal Society Royal Medal and became a foreign associate of the US National Academy of Sciences. He received the Albert Lasker Award for Basic Medical Research in 1998 and was knighted in 1999. He was awarded the French Legion d'Honneur in 2002 and the Royal Society Copley Medal in 2005. He was elected a Foreign Honorary member of the American Academy of Arts and Sciences in April 2006 and has been a member of the Council for Science and Technology advising the Prime Minister since 2000. In 2013 he became the winner of the Albert Einstein World Award of Science conferred by the World Cultural Council.
Date and Time
G16, Sir Alexander Fleming Building
Imperial College London
South Kensington Campus