team and research topics - lineage-flagship.eu research topics... · team, research topics and work...
TRANSCRIPT
Weizmann Institute of Science, Rehovot (Israel)
Team, Research Topics and Work
Packages
Contact: Prof. Ehud Shapiro [email protected]
Country Institute Participants Disciplines
Israel Weizmann Institute of Science
Ehud Shapiro – Coordinator
Computer Science, Biology
Nava Dekel Fertility
Tsvee Lapidot Immune system
Elchanan Mossel Mathematical foundations
Michal Neeman Vascular system
Eldad Tzahor
Heart, skeletal muscles
David Harel Computer Science and Applied Mathematics
Benny Geiger Molecular Cell Biology
Austria Universität Wien Peter Steier Carbon dating
Walter Kutschera Carbon dating
Center for Integrative Bioinformatics Vienna (CIBIV)
Arndt von Haeseler Combinatorial approaches and algorithms
Belgium
Katholieke Universiteit Leuven
Luc de Raedt Machine learning algorithms to learn disease status and progression
Université de
LIège Belgique
Louis Wehenkel Ultrascalable anytime machine learning & data mining algorithms for patient similarity computation, classification of disease phenotypes, and inference of their status and progression
Canada
CHiBi Carl Hansen Microfluidics, Single cell transcriptome
University of Toronto
John Dick Hematopoietic and immune system
Simon Fraser University
Cedric Chauve Comparing and coalescing cell lineage trees
Denmark Danish Technical University
Morten Sommer Biochemistry, Biophysics, Biotechnology
Finland Aalto University (Helsinki University of Technology)
Harri Lähdesmäki Computational Biology & Bioinformatics, Machine learning
Samuel Kaski Computational Biology & Bioinformatics, Machine
Weizmann Institute of Science, Rehovot (Israel)
learning
Biomedicum Helsinki, University of Helsinki
Kari Alitalo Vascular system
France CNRS
Nadine Peyriéras Developmental Biology, Cell lineage reconstruction from 3D+time imaging, animal models including zebrafish, mouse, sea urchin and nematode
Jean-Stéphane Joly Cell lineage analysis
Paul Bourgine Complex Systems modelling, Cell lineage reconstruction from 3D+time imaging
Olivier Gascuel Combinatorial approaches and algorithms
Fabio Pardi Combinatorial approaches and algorithms
Vincent Berry Combinatorial approaches and algorithms
Vincent Ranwez Combinatorial approaches and algorithms
Université de la Méditerranée, Marseille
Robert Kelly Skeletal muscles, Heart
Institut Curie Daniel Louvard Morphogenesis, intracellular signalling
Emmanuel Barillot Inference and classification of health and disease phenotypes from cell lineage data
Sylvie Robine Gastrointestinal tract, including cancer
Jean-Philippe Vert Bioinformatics, statistical learning/classification
Pasteur Margaret Buckingham
Heart and skeletal muscles
Shahragim Tajbakhsh
Skeletal muscles
Fabrice Chrétien Skeletal muscles
ESPCI ParisTech
Patrick Tabeling Microfluidics and biotechnology
École Normale Supérieure
David Bensimon Biochemistry, Biophysics, Biotechnology
Salpetrière hospital
Frederic Relaix Skeletal muscles
Weizmann Institute of Science, Rehovot (Israel)
INRIA Claude Kirchner Computer Science
Germany
Fraunhofer Thomas Berlage
EMBL Takashi Hiiragi Embryonic development
Max Planck
Bernhard Herrmann Development
Hans Lehrach Molecular biology and biotechnology
Ralf Herwig Computational Biology & Bioinformatics
Georgia Panopoulou Computational Biology & Bioinformatics
Albert Poustka Computational Biology & Bioinformatics
Ralf Adams Vascular system
Thomas Braun Heart
DKFZ Heidelberg
Hellmut Augustin Vascular system
University of Regensburg
Christoph Klein Dormancy and origin of metastasis / Transcriptome characterization
Universität Jena Sebastian Boecker Combinatorial approaches and algorithms
Heidelberg Institute for Theoretical Studies (HITS gGmbH)
Alexandros Stamatakis
Combinatorial approaches and algorithms
MLL Münchner Leukämielabor GmbH, ELN
Torsten Haferlach Leukemia
High Performance Computing Center Stuttgart (HLRS) of the University of Stuttgart
Stefan Wesner Virtual Laboratory, High Performance Computing and Cloud Integration
Uwe Wössner Data visualization
Deutsche Forschungsgemeinschaft (DFG)
Dorette Breitkreuz Observer
Universität Tübingen
Daniel Huson Combinatorial approaches and algorithms
University of Cologne and Center for Molecular Medicine
Ingo Haase Skin, including melanoma
Weizmann Institute of Science, Rehovot (Israel)
University Justus Liebig Giessen
Saverio Bellusci Respiratory system
Helmholtz Zentrum München
Timm Schroeder Hematopoietic system
Heinrich-Heine-University of Duesseldorf
Eckhard Lammert Vascular system
Ireland Queens University Belfast
Alexander Peter Maxwell
Kidney and urinary tract
Israel
Technion Karl Skorecki Kidney and urinary tract
Shlomo Moran Combinatorial approaches and algorithms
Hebrew University
Yuval Dor Pancreas, including pancreatic cancer and diabetes type I & II
Tel Aviv University (TAU)
Dafna Benayahu Stem cells
Benny Chor Bioinformatics, algorithms
Shai Izraeli Paediatric leukaemia
Ron Shamir Data analysis, algorithms
IBM Haim Nelken Clinical and genomic data
Michal Rosen-Zvi Machine learning
Ayal Zaks Compilers
Alex Shulman Storage
Yaron Wolfsthal System and Storage technologies
Dalit Naor Storage
Google Yossi Matias Computer science & systems
Isaac Elias Computer science & systems
Sheba Medical Center
Gidi Rechavi Cancer
Italy
University of Trento
Themis Palpanas Data analysis and mining of massive datasets
Andrea Passerini Machine learning algorithms to learn disease status and progression
Università degli Studi di Firenze
Paolo Frasconi Machine learning algorithms to learn disease status and progression
Fondazione San Raffaele Del Monte Tabor, Milano
Giulio Cossu
Skeletal muscles
Japan University of Tokyo
Hiro Nakauchi Immunology
Weizmann Institute of Science, Rehovot (Israel)
RIKEN Yokohama Institute
Piero Carninci Turn individual cells into cell data
Yokohama Institute
Alistair Forrest Single Cell Characterization
Netherlands Hubrecht Institute
Hans Clevers Gastrointestinal tract
Stefan Schulte-Merker
Vascular system
Erasmus University Medical Center
Gerard Wagemaker Hematopoietic and immune system
Elaine Dzierzak Hematopoietic and immune system
Riccardo Fodde Gastrointestinal tract, including cancer
Peter van der Spek Cell lineage analysis
Delft University of Technology
Cees Dekker Biophysics, Nanotechnology, nanopores, cells on fluidic chips
Oracle Eric Zwanenburg Computational biology
New Zealand
University of Canterbury
Mike Steel Mathematical foundations
University of Auckland
Alexei Drummond Comparing and coalescing cell lineage trees
University of Otago
David Bryant Combinatorial approaches and algorithms
Slovakia Bratislava University
Karol Mikula Model organisms and controls
Spain
Centro Nacional de Investigaciones Cardiovasculares (CNIC)
Miguel Torres Sanchez
Development
Consejo Superior de investigacion Cientifica (CSIC)
Paola Bovolenta Eye
Jose Juan Sanchez Serrano
VP of International Affairs
Hospital Clinic de Barcelona
Jorge Ferrer Pancreas, including pancreatic cancer and diabetes type I & II
Centre for Genomic Regulation (CRG)
James Sharpe Development, Computer simulations of clonal expansion during organogenesis
Institute for Research in
Eduard Batlle Gastrointestinal tract, including cancer
Weizmann Institute of Science, Rehovot (Israel)
Biomedicine (IRB)
Julien Colombelli 3D microscopy
Herbert Auer
Universitat de València
Manuel Díaz-Llopis
Eye
University of Vigo
David Posada Combinatorial approaches and algorithms
Universidad Politecnica de Madrid (UPM)
Andres Santos Model organisms and controls
Sweden
Karolinska Institute
Jonas Frisen Renewal, Carbon dating
Kirsty Spalding Renewal, Fat tissue, Carbon dating
Henrik Druid Renewal, Carbon dating
Patrik Ernfors Brain and nervous system central
Christer Betsholtz Vascular system
Sten Linnarsson Single Cell Characterization
Uppsala University
Mats Nilsson Biochemistry, Biophysics, Biotechnology
Ulf Landegren Biochemistry, Biophysics, Biotechnology
Lena Claesson-Welsh
Vascular system
Royal institute of Technology (KTH)
Joakim Lundeberg Cell lineage analysis centers
Jens Lagergren Computational Biology & Bioinformatics
Linköping University
Jan-Åke Larsson Lineage-dependent transcriptional regulation
Switzerland
University of Geneva
Pedro Herrera Pancreas, including pancreatic cancer and diabetes type I & II
Ecoles Polytechniques Fédérales de Lausanne (EPFL)
Bernard Moret Comparing and coalescing cell lineage trees
Swiss National Research Foundation
Walter Reith Observer
Die Eidgenössische Technische Hochschule Zürich (ETH Zurich)
Rudolf (Ruedi) Aebersold
Biochemistry, Proteomics, Systems Biology
Weizmann Institute of Science, Rehovot (Israel)
University of Basel
Georg A. Hollaender Hematopoeitic system
Tecan Group Marc Feiglin Biochemistry, Biophysics, Biotechnology
IBM Alessandro Curioni Computational Biology & Bioinformatics/ Data uncertainty quantification on massive data sets/ New ultrascalable algorithms for classification and clustering
Costas Bekas Computational Biology & Bioinformatics/ Data uncertainty quantification on massive data sets/ New ultrascalable algorithms for classification and clustering
UK
Imperial College Ilpo Huhtaniemi Reproductive system
Andrew de Mello Biochemistry, Biophysics, Biotechnology
Cambridge University
Simon Tavaré Statistical bioinformatics, population genetics, evolutionary cancer genomics
Fiona Watt Skin, including skin cancer
Florian Markowetz Computational biology: data integration and network models
Bill Harris Eye, lineage investigation in the zebrafish retina
Juan-Jose Ventura Respiratory system
The University of Oxford
Robert Griffiths Population genetics
Eirik Jacobsen Hematopoietic system
European Bioinformatics Institute
Nick Goldman Computer science, Mathematics & Statistics
Guy Cochrane Computing and data infrastructure
The Wellcome Trust Sanger Institute
Seth Grant Neuroscience, Genes to Cognition
Microsoft Research
Stephen Emmott Computational biology
King's College London
Peter Zammit Skeletal muscles
Science and David Giaretta Cell lineage data system
Weizmann Institute of Science, Rehovot (Israel)
Technology Facilities Council (STFC)
Neil Geddes eScience, Cell lineage data system
Institute of Cancer Research
Mel Greaves Pediatric Leukemia
Beatson Institute
Owen Sansom Gastrointestinal tract, including cancer
University of Manchester
Simon Whelan Combinatorial approaches and algorithms
Newcastle University
Tom Kirkwood Aging
University College London
Adam Giangreco Respiratory system
Sam Janes Respiratory system
Medical Research Council (MRC)
Stephen Holgate
Respiratory system
University of Southampton
Donna Davies Respiratory system
Hywel Morgan Biotechnology
Phillip Ball Science Writer
USA
Stanford University
Stephen Quake Biotechnology, Microfluidics
University of California, Berkeley
John Huelsenbeck Population genetics
University of California, Davis (UC Davis)
Bruce Rannala Population genetics
University of
California San
Francisco
Carlo Maley Gastrointestinal tract, Cancer, Human hematopoietic system
Iowa State University
Oliver Eulenstein Comparing and coalescing cell lineage trees
Harvard Medical School
Connie Cepko Eye
University of California Los Angeles
Shimon Weiss
Biophysics
University of Southern California (USC)
Darryl Shibata DNA Methylation and epigenetic markers
Weizmann Institute of Science, Rehovot (Israel)
Umass Medical School
Stephen Lyle Skin, including melanoma
University of California, San Diego (UCSD)
Trey Ideker Computational Biology & Bioinformatics
University of Wisconsin
David Page Machine learning algorithms to learn disease status and progression
Juvenile Diabetes Research Foundation (JDRF)
Adrianne Wong Diabetes
Illumina Mostafa Ronaghi Biochemistry, Biophysics, Biotechnology
Nobel Laureate Sydney Brenner Liaison to scientific societies
Altogether up to now there are 168 scientists from 105 institutions in 19 countries.
Weizmann Institute of Science, Rehovot (Israel)
Team Organizaton and Work Packages
[Section leader names below are in bold italics]
{Consortium participant responsible for the travel budget}
1. Project Management
2. Scientific leadership, coordination, and integration
2.1. Edit the Human Cell Lineage Flagship Roadmap Book [Ehud Shapiro,
Philip Ball]
3. Development of the Cell Lineage Analysis & Information
Platform
3.1. Turn individual cells into cell data (Biochemistry, Biophysics,
Computer Systems) [Stephen Quake, Hans Lehrach, Simon Tavaré,
Patrick Tabeling, Morten Sommer, Mostafa Ronaghi, Mats Nilsson, Ulf
Landegren, Christoph Klein, Carl Hansen, David Bensimon, Cees Dekker,
Aebersold Rudolf, Andrew de Mello, Marc Feiglin, Hywel Morgan, Joakim
Lundeberg, Piero Carninci] {UU}
3.1.1. Single Cell Capture (2D and 3D laser capture, microfluidics single-cell
sorting) [Julien Colombelli]
3.1.2. Single Cell DNA amplification (whole genome, haploid, and selective
amplification)
3.1.3. Reading single-cell genomic signatures for lineage information
(sequencing, microsatellite fragment information, DNA arrays)
3.1.4. Single Cell Characterization (genome, transcriptome, proteome,
metabolome) [Christoph Klein, Carl Hansen, Herbert Auer, Hans
Lehrach, Sten Linnarsson, Georgia Panopoulou, Alistair Forrest, Albert
Poustka]
3.2. Turn cell data into information on cell lineage trees (Computer science,
Mathematics & Statistics) [Nick Goldman] {EBI}
3.2.1. Mathematical foundation [Mike Steel, Elchanan Mossel, Sebastian
Boecker]
3.2.2. Phylogenetics; combinatorial and statistical approaches and
algorithms [Olivier Gascuel, Benny Chor, Fabio Pardi, Shlomo Moran,
Daniel Huson, Vincent Berry, Vincent Ranwez, Arndt von Haeseler,
Alexandros Stamatakis, Simon Whelan, David Posada, David
Bryant]{CNRS}
3.2.3. Population genetics; statistical approaches and algorithms [Simon
Tavaré, John Huelsenbeck, Bruce Rannala, Robert Griffiths] {CRUK}
Weizmann Institute of Science, Rehovot (Israel)
3.2.4. Massive scale quantification of data uncertainty [Costas Bekas,
Alessandro Curioni]{IBM}
3.3. Turn information on cell lineage trees into biological and medical
knowledge (Computational Biology & Bioinformatics) [Ralf Herwig, Ron
Shamir, Stephen Emmott, Samuel Kaski, Harri Lähdesmäki, Themis
Palpanas, Michal Rosen-Zvi, Trey Ideker, Emmanuel Barillot, Eric
Zwanenburg] {MPG}
3.3.1. Comparing and coalescing cell lineage trees [Jens Lagergren, Cedric
Chauve, Alexei Drummond, Oliver Eulenstein, David Bryant, Bernard
Moret]
3.3.2. Machine learning algorithms for the analysis of cell lineage trees
[Paolo Frasconi, Andrea Passerini, David Page, Luc de Raedt]
3.3.3. Ultrascalable algorithms for classification and clustering [Costas
Bekas, Alessandro Curioni]
3.3.4. Understanding health vs. disease and disease progression
[Emmanuel Barillot, Jean-Philippe Vert, Samuel Kaski, Paolo Frasconi,
Michal Rosen-Zvi ]
3.3.5. Understanding lineage-dependent transcriptional regulation [Ron
Shamir, Jan-Åke Larsson]
3.3.6. Dissecting the dynamics of molecular interactions [Trey Ideker]
3.3.7. Test case development – specification of further domains for applying
cell lineage trees [Ralf Herwig]
3.4. Development of computing and data platform (Computer Systems)
[Yaron Wolfsthal] {STFC}
3.4.1. Cell lineage data entry, taxonomy, UI and visualization [David
Giaretta, Haim Nelken, Yaron Wolfsthal, Stefan Wesner, Yossi Matias,
Isaac Elias, Neil Geddes]
3.4.2. Cell lineage Open Data Management Store [Yossi Matias, Isaac
Elias, Michael Wilpaner, Haim Nelken, Eric Zwanenburg]
3.4.3. Computer systems technologies [Stefan Wesner, Yossi Matias, Isaac
Elias,Yaron Wolfsthal, Neil Geddes, Guy Cochrane]
4. Deployment and operation of the Cell Lineage Analysis &
Information Platform {UStutt}
4.1. Cell lineage analysis and information centers [Joakim Lundeberg,
Herbert Auer, Shimon Weiss, Hans Lehrach, Bernhard Herrmann, Fiona
Watt, Florian Markowetz, Peter van der Spek, Gidi Rechavi, Jean-Stéphane
Joly, Nadine Peyriéras]
4.1.1. Interface with research groups (obtaining cells and DNA, delivering
analysis results)
4.1.2. Operating procedures
Weizmann Institute of Science, Rehovot (Israel)
4.1.3. Interface with data and computing cloud (delivering data and analysis
results)
4.2. Computing and data platform [Stefan Wesner, David Giaretta, Yossi
Matias, Isaac Elias, Yaron Wolfsthal, Haim Nelken, Uwe Wossner, Neil
Geddes, Guy Cochrane, Alexandros Stamatakis]
5. Application of the Cell Lineage Analysis and Information
Platform to uncover the Human Cell Lineage Tree in health
and in disease {EMC}
5.1. Organs and systems: Development, growth, renewal, aging, and
pathology [Fiona Watt]
5.1.1. Hematopoietic system (including auto-immune diseases) [Gerard
Wagemaker, Hiro Nakauchi, Tsvee Lapidot, Carlo Maley, Joakim
Lundeberg, Timm Schroeder, Elaine Dzierzak, Georg A. Hollaender,
Sten Eirik Jacobsen]
5.1.2. Heart [Thomas Braun, Margaret Buckingham, Eldad Tzahor]
5.1.3. Vascular System [Hellmut Augustin, Ralf Adams, Kari Alitalo, Lena
Claesson-Welsh, Eckhard Lammert, Stefan Schulte-Merker, Michal
Neeman, Christer Betsholtz]
5.1.4. Respiratory system, including lung cancer [Emma Rawlins, Saverio
Bellusci, Adam Giangreco, Sam Janes, Juan-Jose Ventura, Stephen
Holgate, Donna Davies]
5.1.5. Kidney and Urinary tract [Karl Skorecki, Alexander Peter Maxwell]
5.1.6. Pancreas, including pancreatic cancer and diabetes type I & II [Jorge
Ferrer, Pedro Herrera , Yuval Dor] {CRG}
5.1.7. Gastrointestinal tract, including cancer [Hans Clevers, Owen
Sansom, Riccardo Fodde, Sylvie Robine, Eduard Batlle, Daniel Louvard,
Carlo Maley] {IC}
5.1.8. Bones and Cartilage, Connective tissue [James Sharpe, Dafna
Benayahu] {CRG}
5.1.9. Skeletal Muscles [Shahragim Tajbakhsh, Eldad Tzahor, Robert
Kelly, Frederic Relaix, Giulio Cossu, Peter Zammit, Fabrice Chrétien,
Margaret Buckingham]
5.1.10. Endocrinology and metabolism
5.1.11. Reproductive system [Ilpo Huhtaniemi, Nava Dekel]
5.1.12. Skin, including melanoma [Fiona Watt, Florian Markowetz, Ingo
Haase, Stephen Lyle] {CRUK}
5.1.13. Fat tissue [Kirsty Spalding, Henrik Druid]
5.1.14. Brain and nervous system central [Patrik Ernfors, Jonas Frisén,
Seth Grant] {UU}
5.1.15. Eye [Paola Bovolenta, Connie Cepko, Manuel Díaz-Llopis, Bill
Harris] {CRG}
Weizmann Institute of Science, Rehovot (Israel)
5.1.16. Embryonic Development: preimplantation, early patterning and
organogenesis [Bernhard Herrmann, Miguel Torres Sanchez, James
Sharpe, Takashi Hiiragi] {MPG}
5.1.17. Renewal [Jonas Frisén, Kirsty Spalding]
5.1.18. Aging [Tom Kirkwood]
5.2. Cancer [Hans Lehrach, Simon Tavaré, Gidi Rechavi, Carlo Maley] {MPG}
5.2.1. Cancer Stem Cells [John Dick, Tsvee Lapidot, Hans Clevers,
Riccardo Fodde]
5.2.2. Oncogenomics
5.2.3. Dormancy and origin of metastasis [Christoph Klein, Riccardo
Fodde]
5.2.4. Origin of relapse
5.2.5. Clonal heterogeneity
5.2.6. Resistance to therapy
5.2.7. Leukemia
5.2.7.1. Adult Leukemia [Torsten Haferlach]
5.2.7.2. Pediatric Leukemia [Mel Greaves, Shai Izraeli]
5.3. Model organisms and controls {CNRS}
[Note: Mouse model is included in all topics above]
5.3.1. Gold standards for the validation of cell lineage reconstruction
methods (C. elegans, Zebrafish) [Nadine Peyrieras, Paul Bourgine,
Jean-Stéphane Joly, Louis Wehenkel, Karol Mikula, Andres Santos]
5.3.2. Mitochondrial DNA
5.3.3. DNA Methylation and epigenetic markers [Darryl Shibata, Simon
Tavaré, Carlo Maley]
5.3.4. Lineage tracing methods (pulse/chase, others) [Miguel Torres
Sanchez, Bernhard Herrmann, Hellmut Augustin, Ralf Adams,
Margaret Buckingham] {CRG}
5.3.5. Carbon dating [Jonas Frisen, Kirsty Spalding, Henrik Druid, Walter
Kutschera, Peter Steier]
6. Dissemination and support {STFC}
6.1. Liaison with national academies, scientific and professional
associations
6.1.1. The Royal Society [Bill Harris, Fiona Watt] {CRUK}
6.1.2. French Academy of Sciences [Daniel Louvard, Margaret Buckingham]
{IC}
6.1.3. Royal Swedish Academy of Sciences [Ulf Landegren]
6.1.4. Dutch Royal Society [Hans Clevers]
6.1.5. Israeli National Academy of Sciences and Humanities [David Harel]
6.1.6. Academy of Medical Sciences [Simon Tavaré, Fiona Watt] {CRUK}
6.1.7. Complex Systems Society (CSS) [Paul Bourgine]
Weizmann Institute of Science, Rehovot (Israel)
6.1.8. National Network of Complex Systems, France (RNSC), [Paul
Bourgine]
6.1.9. Society for Laboratory Automation and Screening [Marc Feiglin]
6.1.10. Society of Systematic Biologists [Alexandros Stamatakis]
6.1.11. European Society of Cardiology [Robert Kelly]
6.1.12. European Leukemia Net (ELN) [Torsten Haferlach]
6.1.13. Gesellschaft für Informatik [Sebastian Boecker]
6.1.14. Royal Society of New Zealand [Mike Steel]
6.1.15. Nobel Laureate Sydney Brenner
6.2. Liaison with research funding agencies and research foundations
6.2.1. DFG [Dorette Breitkreuz]
6.2.2. Scientific Council of the Dutch Cancer Society [Riccardo Fodde]
6.2.3. Israel Science Foundation (ISF) [Benny Geiger]
6.2.4. Biological Sciences Committee of Cancer Research UK [Simon
Tavaré] {CRUK}
6.2.5. National Cancer Institute (INCA) [Daniel Louvard]
6.2.6. Association Française contre les Myopathies (AFM) [Margaret
Buckingham]
6.2.7. Spanish national research council (Consejo Superior de Investigacion
Cientifica, CSIC) [Jose Juan Sanchez Serrano, Paola Bovolenta]
6.2.8. Science and Technology Facilities Council (STFC) [Neil Geddes]
6.2.9. Swiss National Research Foundation [Walter Reith] –tbc
6.2.10. Biotechnology and Biological Sciences Research Council (BBSRC)
[Stephen Emmott]
6.2.11. Allan Wilson Centre of Molecular Ecology and Evolution [David
Bryant]
6.2.12. Wellcome Trust [Stephen Emmott, Seth Grant]
6.2.13. Medical Research Council (MRC) [Stephen Holgate, Seth Grant]
6.2.14. Juvenile Diabetes Research Foundation [Adrianne Wong]
6.3. Liaison with multi-site research organizations
6.3.1. Fraunhofer [Thomas Berlage]
6.3.2. INRIA [Claude Kirchner]
6.3.3. MPG