| 1 | -- | 0 | Nigel Crook, Tjeerd Olde Scheper. Special edition of BioSystems: Information processing in cells and tissues |
| 2 | -- | 9 | Christopher L. Buckley, Seth Bullock. Sensitivity and stability: A signal propagation sweet spot in a sheet of recurrent centre crossing neurons |
| 10 | -- | 17 | Richard R. Carrillo, Eduardo Ros, Silvia Tolu, Thierry Nieus, Egidio D Angelo. Event-driven simulation of cerebellar granule cells |
| 18 | -- | 27 | Richard R. Carrillo, Eduardo Ros, Christian Boucheny, Olivier J. M. D. Coenen. A real-time spiking cerebellum model for learning robot control |
| 28 | -- | 33 | Moritz Buck, Chrystopher L. Nehaniv. Communication and complexity in a GRN-based multicellular system for graph colouring |
| 34 | -- | 46 | Stephen L. Smith, Jon Timmis. An immune network inspired evolutionary algorithm for the diagnosis of Parkinson s disease |
| 47 | -- | 54 | Dan V. Nicolau Jr., Kevin Burrage, Dan V. Nicolau, Philip K. Maini. Extremotaxis : Computing with a bacterial-inspired algorithm |
| 55 | -- | 59 | Nigel Crook, Wee Jin Goh. Nonlinear transient computation as a potential kernel trick in cortical processing |
| 60 | -- | 67 | Martin Coath, Emili Balaguer-Ballester, Sue L. Denham, Michael J. Denham. The linearity of emergent spectro-temporal receptive fields in a model of auditory cortex |
| 68 | -- | 74 | Johannes F. Knabe, Chrystopher L. Nehaniv, Maria J. Schilstra. Do motifs reflect evolved function? - No convergent evolution of genetic regulatory network subgraph topologies |
| 75 | -- | 86 | Thomas Burwick. Temporal coding: The relevance of classical activity, its relation to pattern frequency bands, and a remark on recoding of excitatory drive into phase shifts |
| 87 | -- | 94 | Lee Calcraft, Rod Adams, Neil Davey. Efficient connection strategies in 1D and 2D associative memory models with and without displaced connectivity |
| 95 | -- | 101 | Arturo Chavoya, Yves Duthen. A cell pattern generation model based on an extended artificial regulatory network |
| 102 | -- | 108 | Anne Crumière, Mathieu Sablik. Positive circuits and d-dimensional spatial differentiation: Application to the formation of sense organs in Drosophila |
| 109 | -- | 117 | Kazunari Iwamoto, Yoshihiko Tashima, Hiroyuki Hamada, Yukihiro Eguchi, Masahiro Okamoto. Mathematical modeling and sensitivity analysis of G1/S phase in the cell cycle including the DNA-damage signal transduction pathway |
| 118 | -- | 125 | Hideaki Suzuki. A network cell with molecular agents that divides from centrosome signals |
| 126 | -- | 134 | Attila Egri-Nagy, Chrystopher L. Nehaniv, John L. Rhodes, Maria J. Schilstra. Automatic analysis of computation in biochemical reactions |
| 135 | -- | 144 | Attila Egri-Nagy, Chrystopher L. Nehaniv. Algebraic properties of automata associated to Petri nets and applications to computation in biological systems |
| 145 | -- | 152 | Tjeerd Olde Scheper. Why metabolic systems are rarely chaotic |
| 153 | -- | 163 | Cristina Costa Santini, Andy M. Tyrrell. The manipulation of calcium oscillations by harnessing self-organisation |
| 164 | -- | 169 | André Stauffer, Daniel Mange, Joël Rossier, Fabien Vannel. Bio-inspired self-organizing cellular systems |
| 170 | -- | 181 | Jordan H. Boyle, Netta Cohen. Caenorhabditis elegans body wall muscles are simple actuators |
| 182 | -- | 190 | James Watson, Jim Hanan, Janet Wiles. Modeling the fitness of plant morphologies across three levels of complexity |