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G Weisbuch

Showing results (1-10 of 13) with videos related to

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Journal of Theoretical Biology|April 23, 1990
A shape space approach to the dynamics of the immune systemG Weisbuch
Comptes Rendus De L'Academie Des Sciences. Serie III, Sciences De La Vie|January 1, 1984
[A model of the evolution of species on three levels, based on the global properties of Boolean networks]G Weisbuch
Biochimie|November 1, 1981
Polyelectrolyte theory of charged-ligand binding to nucleic acidsM Guéron, G Weisbuch
Bulletin of Mathematical Biology|November 1, 1995
Idiotypic regulation of B cell differentiationB Sulzer, G Weisbuch
Biopolymers|January 1, 1973
Molecular field theory of hysteresis in helix-coil transitions of polynucleotidesG Weisbuch, E Neumann
Bulletin of Mathematical Biology|September 1, 1994
Capacity of a model immune networkG Weisbuch, M Oprea
Bulletin of Mathematical Biology|July 1, 1992
Modeling immune reactivity in secondary lymphoid organsA S Perelson, G Weisbuch
Bulletin of Mathematical Biology|September 1, 1992
Dynamics and topology of idiotypic networksA U Neumann, G Weisbuch
Bulletin of Mathematical Biology|February 11, 2015
Window automata analysis of population dynamics in the immune systemA U Neumann, G Weisbuch
Biopolymers|June 1, 1979
Inelastic light-scattering study of polyadenilic acidP Mathiez, G Weisbuch, C Mouttet
Pageof 2

Showing results (1-10 of 13) with videos related to

Sort By:
Pageof 2
Journal of Theoretical Biology|April 23, 1990
A shape space approach to the dynamics of the immune systemG Weisbuch
Comptes Rendus De L'Academie Des Sciences. Serie III, Sciences De La Vie|January 1, 1984
[A model of the evolution of species on three levels, based on the global properties of Boolean networks]G Weisbuch
Biochimie|November 1, 1981
Polyelectrolyte theory of charged-ligand binding to nucleic acidsM Guéron, G Weisbuch
Bulletin of Mathematical Biology|November 1, 1995
Idiotypic regulation of B cell differentiationB Sulzer, G Weisbuch
Biopolymers|January 1, 1973
Molecular field theory of hysteresis in helix-coil transitions of polynucleotidesG Weisbuch, E Neumann
Bulletin of Mathematical Biology|September 1, 1994
Capacity of a model immune networkG Weisbuch, M Oprea
Bulletin of Mathematical Biology|July 1, 1992
Modeling immune reactivity in secondary lymphoid organsA S Perelson, G Weisbuch
Bulletin of Mathematical Biology|September 1, 1992
Dynamics and topology of idiotypic networksA U Neumann, G Weisbuch
Bulletin of Mathematical Biology|February 11, 2015
Window automata analysis of population dynamics in the immune systemA U Neumann, G Weisbuch
Biopolymers|June 1, 1979
Inelastic light-scattering study of polyadenilic acidP Mathiez, G Weisbuch, C Mouttet
Pageof 2