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  1. Axel Hunding, Francois Kepes, Doron Lancet, Abraham Minsky, Vic Norris, Derek Raine, K. Sriram & Robert Root‐Bernstein (2006). Compositional Complementarity and Prebiotic Ecology in the Origin of Life. Bioessays 28 (4):399-412.
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  2. Nicolas Omont & François Képès (2005). Book Review: Modularity in Development and Evolution. [REVIEW] Bioessays 27 (6):667-668.
  3. Patrick Amar, Pascal Ballet, Georgia Barlovatz-Meimon, Arndt Benecke, Gilles Bernot, Yves Bouligand, Paul Bourguine, Franck Delaplace, Jean-Marc Delosme, Maurice Demarty, Itzhak Fishov, Jean Fourmentin-Guilbert, Joe Fralick, Jean-Louis Giavitto, Bernard Gleyse, Christophe Godin, Roberto Incitti, François Képès, Catherine Lange, Lois Le Sceller, Corinne Loutellier, Olivier Michel, Franck Molina, Chantal Monnier, René Natowicz, Vic Norris, Nicole Orange, Helene Pollard, Derek Raine, Camille Ripoll, Josette Rouviere-Yaniv, Milton Saier, Paul Soler, Pierre Tambourin, Michel Thellier, Philippe Tracqui, Dave Ussery, Jean-Claude Vincent, Jean-Pierre Vannier, Philippa Wiggins & Abdallah Zemirline (2002). Hyperstructures, Genome Analysis and I-Cells. Acta Biotheoretica 50 (4).
    New concepts may prove necessary to profit from the avalanche of sequence data on the genome, transcriptome, proteome and interactome and to relate this information to cell physiology. Here, we focus on the concept of large activity-based structures, or hyperstructures, in which a variety of types of molecules are brought together to perform a function. We review the evidence for the existence of hyperstructures responsible for the initiation of DNA replication, the sequestration of newly replicated origins of replication, cell division (...)
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  4. François Képès (2002). Secretory Compartments as Instances of Dynamic Self-Evolving Structures. Acta Biotheoretica 50 (4).
    Biological objects are often constructive dynamic systems whose structures evolve as a consequence of their internal dynamics, which in turn is affected by the overall structure. As very few tools are presently adapted to tackle constructive dynamic systems, they constitute fascinating challenges for modeling/simulation. In cell biology, the secretory process in eukaryotic cells corresponds to this type of system, as it appears to autonomously generate new structures as a result of its molecular dynamics. Here I briefly review the only documented (...)
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  5. François Képès & Alessandra Carbone (2002). Modelling Macromolecular Networks: Two Meetings in Paris, July, 2002. Bioessays 24 (12):1188-1190.
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