Alan S. Perelson
Theoretical Immunology, Part Two
Alan S. Perelson
Theoretical Immunology, Part Two
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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.
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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.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 430
- Erscheinungstermin: 1. März 2003
- Englisch
- Abmessung: 229mm x 152mm x 23mm
- Gewicht: 619g
- ISBN-13: 9780201156881
- ISBN-10: 0201156881
- Artikelnr.: 21393830
- Verlag: CRC Press
- Seitenzahl: 430
- Erscheinungstermin: 1. März 2003
- Englisch
- Abmessung: 229mm x 152mm x 23mm
- Gewicht: 619g
- ISBN-13: 9780201156881
- ISBN-10: 0201156881
- Artikelnr.: 21393830
Alan S Perelson
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
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
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