Mathematical Models and Immune Cell Biology [recurso electrónico] / edited by Carmen Molina-París, Grant Lythe.

Por: Molina-París, Carmen [editor.]Colaborador(es): Lythe, Grant [editor.] | SpringerLink (Online service)Tipo de material: TextoTextoEditor: New York, NY : Springer New York, 2011Descripción: XVI, 407 p. online resourceTipo de contenido: text Tipo de medio: computer Tipo de portador: online resourceISBN: 9781441977250Tema(s): Medicine | Immunology | Bioinformatics | Cell receptors | Biological models | Biomedicine | Immunology | Systems Biology | Computational Biology/Bioinformatics | ReceptorsFormatos físicos adicionales: Printed edition:: Sin títuloClasificación CDD: 616.079 Clasificación LoC:QR180-189.5Recursos en línea: Libro electrónicoTexto
Contenidos:
Preface -- Thymocyte development -- A review of mathematical models for T cell receptor triggering and antigen discrimination -- Dynamic tuning of T cell receptor specificity by co-receptors and costimulation -- T cell activation and function: role of signal strength -- The cyton model for lymphocyte proliferation and differentiation -- Modeling itravital two-photon data of lymphocyte migration and interaction -- Modeling lymphocyte dynamics in vivo -- Continuous-time birth and death processes: diversity maintenance of naïve T cells in the periphery -- Multivariate competition processes: a model for two competing T cell clonotypes -- Stochastic modeling of T Cell homeostasis for two competing clonotypes via the master equation -- Dendritic cell migration in the intestinal tract -- Reassessing germinal center reaction concepts -- B cell strategies of Ag recognition in a stratified immune system -- Dynamics of Peripheral regulatory and effector T cells competing for antigen presenting cells -- Mathematical models of the role of IL-2 in the interactions between helper and regulstory CD4+ T cells -- A Physicist’s approach to immunology -- Timescales of the adaptive immune response -- Using mathematical models to explore the role of cytoxic T lymphocytes in HIV infection -- Viral immunity and persistence -- Index.
En: Springer eBooksResumen: Mathematical immunology is in a period of rapid expansion and excitement. At recent meetings, a common language and research direction has emerged amongst a world-class group of scientists and mathematicians. Mathematical Models and Immune Cell Biology aims to communicate these new ideas to a wider audience. The reader will be exposed to a variety of tools and methods that go hand-in-hand with the immunological processes being modeled. This volume contains chapters, written by immunologists and mathematicians, on thymocytes, on T cell interactions, activation, proliferation and homeostasis, as well as on dendritic cells, B cells and germinal centers. Chapters are devoted to measurement and imaging methods and to HIV and viral infections.
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Existencias
Tipo de ítem Biblioteca actual Colección Signatura Copia número Estado Fecha de vencimiento Código de barras
Libro Electrónico Biblioteca Electrónica
Colección de Libros Electrónicos QR180 -189.5 (Browse shelf(Abre debajo)) 1 No para préstamo 372007-2001

Preface -- Thymocyte development -- A review of mathematical models for T cell receptor triggering and antigen discrimination -- Dynamic tuning of T cell receptor specificity by co-receptors and costimulation -- T cell activation and function: role of signal strength -- The cyton model for lymphocyte proliferation and differentiation -- Modeling itravital two-photon data of lymphocyte migration and interaction -- Modeling lymphocyte dynamics in vivo -- Continuous-time birth and death processes: diversity maintenance of naïve T cells in the periphery -- Multivariate competition processes: a model for two competing T cell clonotypes -- Stochastic modeling of T Cell homeostasis for two competing clonotypes via the master equation -- Dendritic cell migration in the intestinal tract -- Reassessing germinal center reaction concepts -- B cell strategies of Ag recognition in a stratified immune system -- Dynamics of Peripheral regulatory and effector T cells competing for antigen presenting cells -- Mathematical models of the role of IL-2 in the interactions between helper and regulstory CD4+ T cells -- A Physicist’s approach to immunology -- Timescales of the adaptive immune response -- Using mathematical models to explore the role of cytoxic T lymphocytes in HIV infection -- Viral immunity and persistence -- Index.

Mathematical immunology is in a period of rapid expansion and excitement. At recent meetings, a common language and research direction has emerged amongst a world-class group of scientists and mathematicians. Mathematical Models and Immune Cell Biology aims to communicate these new ideas to a wider audience. The reader will be exposed to a variety of tools and methods that go hand-in-hand with the immunological processes being modeled. This volume contains chapters, written by immunologists and mathematicians, on thymocytes, on T cell interactions, activation, proliferation and homeostasis, as well as on dendritic cells, B cells and germinal centers. Chapters are devoted to measurement and imaging methods and to HIV and viral infections.

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