Biblio
Filters: Author is Thieffry, Denis [Clear All Filters]
Computational modeling of the main signaling pathways involved in mast cell activation. Current topics in microbiology and immunology. 382:69-93. Abstract
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2014.
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Submitted.
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2019.
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2019.
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2020.
Discovery of Drug Synergies in Gastric Cancer Cells Predicted by Logical Modeling.. PLoS computational biology. 11(8):e1004426. Abstract
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2015.
Diversity and Plasticity of Th Cell Types Predicted from Regulatory Network Modelling. PLoS Computational Biology. 6(9):e1000912.
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2010.
Dynamical analysis of a generic Boolean model for the control of the mammalian cell cycle.. Bioinformatics (Oxford, England). 22(14):e124-31. Abstract
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2006.
Dynamically consistent reduction of logical regulatory graphs. Theoretical Computer Science. 412(21):2207-2218.
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2011.
Integrative modelling of the influence of MAPK network on cancer cell fate decision.. PLoS computational biology. 9(10):e1003286. Abstract
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2013.
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Submitted.
A Logical Analysis of the Drosophila Gap-gene System. Journal of Theoretical Biology. 211(2):115-141.
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2001.
Logical model specification aided by model-checking techniques: application to the mammalian cell cycle regulation. Bioinformatics. 32:i772-i780. Abstract
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2016.
Logical modeling of cell fate specification - Application to T cell commitment. Current Topics in Developmental Biology.
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2020.
Logical modeling of lymphoid and myeloid cell specification and transdifferentiation.. Proceedings of the National Academy of Sciences of the United States of America. 114(23):5792-5799. Abstract
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2017.
Logical modelling of cell cycle control in eukaryotes: a comparative study. Molecular BioSystems. 5(12):1569.
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2009.
Logical modelling of Drosophila signalling pathways.. Molecular bioSystems. 9(9):2248-58. Abstract
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2013.
Mathematical modelling of cell-fate decision in response to death receptor engagement. PLoS computational biology. 6(3):e1000702. Abstract
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2010.
Mathematical modelling of cell-fate decision in response to death receptor engagement.. PLoS computational biology. 6(3):e1000702. Abstract
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2010.
miR-9 controls the timing of neurogenesis through the direct inhibition of antagonistic factors.. Developmental cell. 22(5):1052-64. Abstract
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2012.
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2009.
Modular logical modelling of the budding yeast cell cycle.. Molecular bioSystems. 5(12):1787-96. Abstract
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2009.
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2016.