This book covers the topics of immune surveillance, mathematical models of HIV infection, complexities of antigen-antibody systems, immune suppression and tolerance, and idiotypie networks.
This book covers the topics of immune surveillance, mathematical models of HIV infection, complexities of antigen-antibody systems, immune suppression and tolerance, and idiotypie networks.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
About the Santa Fe Institute Santa Fe Institute Publications Committee January 1988 Foreword Immune Surveillance How Immune Cells Find Their Targets: Quantitative Studies of Cell Adhesion Migration and Chemotaxis Population Dynamics of Tumors Attacked by Immunocompetent Killer Cells Immune Surveillance: Towards a Tumor-Specific Model Mathematical Models of HIV Infection AIDS: Background and the Dynamics of the Decline of Immunocompetence HIV Infection from an Ecological Viewpoint Analysis of Immune System Retrovirus Equations Complexities of Antigen-Antibody Systems Models of Immunolysis Assays: A Vesicle-Based Approach for Direct Binding Pseudo-Cooperativity Resulting from Ring Closure in Divalent Antibody-Divalent Antigen Interactions Estimation of Antibody Affinity via Reduced-Order Modeling Symbolic Interpretation of Data and the Definition of Factors in Immunogenetics Immune Suppression and Self-Tolerance Idiotypic Control of the Immune Response to Ferredoxin Predominant Use of the Particular V Gene in the KLH-Specific Suppressor T Cell Family The Role of l-J+ Macrophages in the Induction of Antigen B-Specific T-Suppressor Cells Control of Lethal Autoreactivity without a Network Idiotypic Networks Categories of Idiotope Overlap and anti-Idiotypic Mimicry of Antigen In Search of T-Cell Help for the Internal Image of the Antigen Symmetry and Asymmetry in the Immune Network Symmetric Idiotypic Networks: Connectance and Switching Stability and Suppression The N-Dimensional Network Computations in Shape Space: A New Approach to Immune Network Theory Polydispersity in Immune Networks Cognitive Networks: Immune Neural and Otherwise Toward a Realistic Model of the Immune System
About the Santa Fe Institute Santa Fe Institute Publications Committee January 1988 Foreword Immune Surveillance How Immune Cells Find Their Targets: Quantitative Studies of Cell Adhesion Migration and Chemotaxis Population Dynamics of Tumors Attacked by Immunocompetent Killer Cells Immune Surveillance: Towards a Tumor-Specific Model Mathematical Models of HIV Infection AIDS: Background and the Dynamics of the Decline of Immunocompetence HIV Infection from an Ecological Viewpoint Analysis of Immune System Retrovirus Equations Complexities of Antigen-Antibody Systems Models of Immunolysis Assays: A Vesicle-Based Approach for Direct Binding Pseudo-Cooperativity Resulting from Ring Closure in Divalent Antibody-Divalent Antigen Interactions Estimation of Antibody Affinity via Reduced-Order Modeling Symbolic Interpretation of Data and the Definition of Factors in Immunogenetics Immune Suppression and Self-Tolerance Idiotypic Control of the Immune Response to Ferredoxin Predominant Use of the Particular V Gene in the KLH-Specific Suppressor T Cell Family The Role of l-J+ Macrophages in the Induction of Antigen B-Specific T-Suppressor Cells Control of Lethal Autoreactivity without a Network Idiotypic Networks Categories of Idiotope Overlap and anti-Idiotypic Mimicry of Antigen In Search of T-Cell Help for the Internal Image of the Antigen Symmetry and Asymmetry in the Immune Network Symmetric Idiotypic Networks: Connectance and Switching Stability and Suppression The N-Dimensional Network Computations in Shape Space: A New Approach to Immune Network Theory Polydispersity in Immune Networks Cognitive Networks: Immune Neural and Otherwise Toward a Realistic Model of the Immune System
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