Tuesday, February 05, 2008

Biological complexity: from molecules to systems

I'm delighted to have been invited to speak at an event titled "Biological complexity: from molecules to systems", to be held at University College London from 12-13 June this year. The meeting is sponsored by both UCL and the Weizmann Institute of Science in Israel, and will feature speakers from the fields of immunology, computer science, mathematics, biological chemistry, molecular genetics and bioinformatics. I'll try my best to summarize below the research interests of the other invited speakers (but apologies to anyone whose work I misrepresent!)

Stephen Emmott from Microsoft Research in Cambridge will give the keynote address. Stephen is the founder and Director of Microsoft's European Science Programme, and was the driving force behind the influential Towards 2020 Science project and report.

Representing Israeli activity, Nir Friedman works in computational biology, and recently published a paper arguing that gene duplication may drive the "modularisation" of functional genetic networks (that is, genetic networks that are relatively self-contained, and which perform a specific task).

David Harel is a celebrated computer scientist, having carried out important work in logic, software engineering and computability theory. As a student, I often referred to his award-winning book Algorithmics: The Spirit of Computing, and he is currently working on topics that include the modelling and analysis of biological systems (eg. the nematode worm) and the synthesis and communication of smell.

Shmuel Pietrokovski works in bioinformatics, with particular interest in inteins (protein introns); "selfish" DNA elements that are converted into proteins together with their hosts.

Yitzhak Pilpel's lab takes a systems-level approach to how genes are regulated: "By applying genome wide computational approaches, backed-up by in house laboratory experiments, [the lab] devotes itself to both establishing an in-depth understanding of the different processes controlling gene expression, and to understand[ing] how these processes are orchestrated to establish robustness of the regulatory code."

Gideon Schreiber studies the precise nature of protein-protein interactions and the implications these have for complex biological processes.

Eran Segal is a computer scientist (predominantly) working in computational biology, who has recently reported some fascinating work on a "higher level" genetic code, as well as research on predicting expression patterns from their regulatory sequences in fruit flies.

I've already written at some length about Ehud Shapiro (also here); his recent work has centred on the construction of biological computing devices (known as automata) using DNA molecules and enzymes.

Yoav Soen's group is "using embryonic stem cells models to study how different layers of regulation interact to specify morphogenetic decisions, how these decisions are shaped by interactions between emerging precursors and how they are coordinated across a developing embryonic tissue." He has also worked with a colleague of mine, Netta Cohen at Leeds.

Representing activities in the UK, we have Cyrus Chothia from the Laboratory of Molecular Biology at Cambridge, who studies the "nature of the protein repertoires in different organisms and the molecular mechanisms that have produced these differences."

Jasmin Fisher is leading the new Executable Biology Group at Microsoft Research, and is primarily interested in systems/computational biology.

Mike Hoffman and Ewan Birney are at the European Bioinformatics Institute (EBI) in Cambridge, where Birney leads the EBI contribution to Ensembl. There's a transcript of an interview with him here.

Jaroslav Stark is the Director of the Centre for Integrative Systems Biology at Imperial College. He was recently interviewed for a piece on systems biology on BBC Radio 4's The Material World.

Michael Sternberg heads the Structural Bioinformatics Group and the Imperial College Centre for Bioinformatics. He was previously the head of biomolecular modelling at the Imperial Cancer Research Fund now part of Cancer Research UK.

Perdita Stevens is at Edinburgh, where she works on software engineering and theoretical computer science (with a growing interest in modelling viral infection).

The meeting organisers are particularly keen to encourage the participation of young researchers, and the registration fee for this two-day event is a very reasonable 50 pounds (30 for students). To register and for further information, please contact Michelle Jacobs at Weizmann UK at post@weizmann.org.uk or on 020 7424 6860. Attendance will be limited to 180 delegates.

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