Understanding the PI3K/AKT Anti-Apoptotic Signalling Pathway: a Tuple Space-Based Computational Framework for Simulating the Signal Transduction
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@article{btssocbio-jcm2013,
author = {González-Pérez, Pedro Pablo and Cárdenas-García, Maura and Montagna, Sara},
eissn = {1792-8850},
iris = {11585/521588},
issn = {1792-7625},
journal = {Journal of Computations & Modelling},
keywords = {Signal transduction, Anti-apoptotic signalling pathways, Biochemical Tuple Spaces for Self-Organising Coordination, Tuple space-based computational framework},
number = 2,
pages = {35-65},
publisher = {Scienpress Ltd},
title = {Understanding the PI3K/AKT Anti-Apoptotic Signalling Pathway: a Tuple Space-Based Computational Framework for Simulating the Signal Transduction},
volume = 3,
year = 2013
}
author = {González-Pérez, Pedro Pablo and Cárdenas-García, Maura and Montagna, Sara},
eissn = {1792-8850},
iris = {11585/521588},
issn = {1792-7625},
journal = {Journal of Computations & Modelling},
keywords = {Signal transduction, Anti-apoptotic signalling pathways, Biochemical Tuple Spaces for Self-Organising Coordination, Tuple space-based computational framework},
number = 2,
pages = {35-65},
publisher = {Scienpress Ltd},
title = {Understanding the PI3K/AKT Anti-Apoptotic Signalling Pathway: a Tuple Space-Based Computational Framework for Simulating the Signal Transduction},
volume = 3,
year = 2013
}