Transactions on Computational Systems Biology XI: Computational Models for Cell ProcessesThis issue on Computational Models for Cell Processes is based on a workshop that took place in Turku, Finland, May 2008. The papers span a mix of approaches to systems biology, ranging from quantitative techniques to computing paradigms inspired by biology. |
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Inhalt
Computational Models for Cell Processes | 1 |
Simple Enhanced and Mutual Mobile Membranes | 26 |
BioPEPA with Events | 45 |
In Silico Modelling and Analysis of Ribosome Kinetics and aatRNA | 69 |
Qualitative and Quantitative Analysis of a BioPEPA Model of | 90 |
RuleBased Modelling and Model Perturbation | 116 |
Extended Stochastic Petri Nets for ModelBased Design of Wetlab | 138 |
A Projective Brane Calculus with Activate Bud and Mate as Primitive | 164 |
Accepting Networks of Noninserting Evolutionary Processors | 187 |
Discrete Modeling of Biochemical Signaling with Memory | 200 |
To Ordinary | 216 |
Computing Equilibrium Points of Genetic Regulatory Networks | 268 |
Code Context and Epigenetic Catalysis in Gene Expression | 283 |
Author Index | 335 |
Andere Ausgaben - Alle anzeigen
Transactions on Computational Systems Biology XI: Computational Models for ... Ralph-Johan Back,Corrado Priami,Ion Petre Eingeschränkte Leseprobe - 2009 |
Transactions on Computational Systems Biology XI: Computational Models for ... Corrado Priami Keine Leseprobe verfügbar - 2009 |
Häufige Begriffe und Wortgruppen
aa-tRNA abstraction action activation agents algorithm allow analysis applied approach associated behaviour Bio-PEPA biochemical biological Brane calculus cell changes channel checking cognate complex components Computer condition consider construct continuous cytoplasm defined definition denotes depends described different differential equations distortion distributed dynamics equivalence evolution example expression Figure first formal function gene given Heidelberg initial input instance interaction introduced involved labelled language levels LNCS mathematical matrix membrane molecules multisets mutual natural networks node Note objects obtained operator output parallel parameter path pathway points possible present PRISM probability process algebra Programming properties proposed proteins reaction receptor References relation represent respectively rules sCCP Science signalling simulation solution space species specific Springer STAT3 step stochastic structure Theorem tion transition translation University variables