Journal of Computer and System Sciences
Membrane Computing: An Introduction
Membrane Computing: An Introduction
The relevance of cell membranes for P Systems: general aspects
Fundamenta Informaticae - Membrane computing
Molecular Biology of Bacteria and Its Relevance for P Systems
WMC-CdeA '02 Revised Papers from the International Workshop on Membrane Computing
Evolution-Communication P Systems
WMC-CdeA '02 Revised Papers from the International Workshop on Membrane Computing
Virtual Test Tubes: A New Methodology for Computing
SPIRE '00 Proceedings of the Seventh International Symposium on String Processing Information Retrieval (SPIRE'00)
Modelling biological processes by using a probabilistic P system software
Natural Computing: an international journal
Applications of Membrane Computing (Natural Computing Series)
Applications of Membrane Computing (Natural Computing Series)
Fundamenta Informaticae
A study of the robustness of the EGFR signalling cascade using continuous membrane systems
IWINAC'05 Proceedings of the First international conference on Mechanisms, Symbols, and Models Underlying Cognition: interplay between natural and artificial computation - Volume Part I
MP systems approaches to biochemical dynamics: biological rhythms and oscillations
WMC'06 Proceedings of the 7th international conference on Membrane Computing
Towards a hybrid metabolic algorithm
WMC'06 Proceedings of the 7th international conference on Membrane Computing
Membrane computing as a modeling framework: cellular systems case studies
SFM'08 Proceedings of the Formal methods for the design of computer, communication, and software systems 8th international conference on Formal methods for computational systems biology
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P systems offer the possibility to appropriately describe discrete processes performed by: i) single objects: catalytic molecules (= enzymes), supramolecular structures (MscL, porins, ionic channels etc.), single cells, and ii) a small number of objects occurring in the sample, e.g., several mechanosensitive channels occurring within a membrane patch. Thus P systems could offer the possibility to capture and model the plethora of experimental data obtained in the emerging and rapidly growing field of single cell or single molecule or atom studies. Furthermore, it is suggested that in vitro implementation of P systems could be done by the use of artificial membranes, a step forward computations with artificial membranes.