Alan S Perelson
Theoretical Immunology, Part One
Alan S Perelson
Theoretical Immunology, Part One
- Broschiertes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
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.
Andere Kunden interessierten sich auch für
- Alan S PerelsonTheoretical Immunology, Part One182,99 €
- Alan S PerelsonTheoretical Immunology, Part Two50,99 €
- Alan S PerelsonMolecular Evolution on Rugged Landscapes68,99 €
- Nanobiotechnology for Sustainable Bioenergy and Biofuel Production245,99 €
- Frank H BakerBeef Cattle Science Handbook, Vol. 20188,99 €
- Big Data Analytics198,99 €
- Cyber-Physical Systems and Industry 4.0165,99 €
-
-
-
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.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 426
- Erscheinungstermin: 1. Januar 1988
- Englisch
- Abmessung: 226mm x 152mm x 23mm
- Gewicht: 576g
- ISBN-13: 9780201156836
- ISBN-10: 0201156830
- Artikelnr.: 21253186
- Verlag: CRC Press
- Seitenzahl: 426
- Erscheinungstermin: 1. Januar 1988
- Englisch
- Abmessung: 226mm x 152mm x 23mm
- Gewicht: 576g
- ISBN-13: 9780201156836
- ISBN-10: 0201156830
- Artikelnr.: 21253186
Alan S Perelson
About the Santa Fe Institute
Foreword
Cell Stimulation and Receptor Crosslinking
Desensitization
Histamine Release and the Aggregation of IgE on Human Basophils
Progress Toward Understanding the Molecular Details and Consequences of IgE-Receptor Crosslinking
Two Distinct States of Crosslinked IgE Receptors That May Trigger and Terminate Secretion from RBL-2H3 Mast Cells
A Molecular Basis For Immune Regulation: The Immunon Hypothesis
Cell-Cell Adhesion Resembles Receptor Crosslinking
B Cell Clonogenesis Induced by Anti-Immunoglobulin (Anti-lg) and Interleukins
Antigen Presentation and the Structure of Antigenic Determinants
Where Did the Macrophage Get the Antigen From?
Statistics in Immunology and Biochemistry
Hydrophilicity
Solvent Accessibility and Location of Antigenic Determinants in Proteins
Dynamics of the Immune Response
The Regulation of Lymphocyte Proliferation by Proliferating Lymphocytes: Is Lactate a Central Regulatory Element in the Immune System?
Modeling Dynamical Aspects of the Immune Response: I. T Cell Proliferation and the Effect of IL-2
Role of Multistability in an Immune Response Model: A Combined Discrete and Continuous Approach
Systematic Approach to Modeling Immune Response
The Flow Topology of the Herzenberg Immunological Control Networks
A Logical Dynamic Systems Approach to the Regulation of Antigen-Driven Lymphocyte Stimulation
Decision Criteria and Coherence in the Regulation of the Immune Response
Antibody Affinity Distribution-Based Models for Vaccine Potency Assessment
On Immune Process Stochastic Structure
Maturation of the Immune Response
Maturation of the Immune Response Via Adaptive Walks On Affinity Landscapes
Affinity Maturation and Ecological Succession
Foreword
Cell Stimulation and Receptor Crosslinking
Desensitization
Histamine Release and the Aggregation of IgE on Human Basophils
Progress Toward Understanding the Molecular Details and Consequences of IgE-Receptor Crosslinking
Two Distinct States of Crosslinked IgE Receptors That May Trigger and Terminate Secretion from RBL-2H3 Mast Cells
A Molecular Basis For Immune Regulation: The Immunon Hypothesis
Cell-Cell Adhesion Resembles Receptor Crosslinking
B Cell Clonogenesis Induced by Anti-Immunoglobulin (Anti-lg) and Interleukins
Antigen Presentation and the Structure of Antigenic Determinants
Where Did the Macrophage Get the Antigen From?
Statistics in Immunology and Biochemistry
Hydrophilicity
Solvent Accessibility and Location of Antigenic Determinants in Proteins
Dynamics of the Immune Response
The Regulation of Lymphocyte Proliferation by Proliferating Lymphocytes: Is Lactate a Central Regulatory Element in the Immune System?
Modeling Dynamical Aspects of the Immune Response: I. T Cell Proliferation and the Effect of IL-2
Role of Multistability in an Immune Response Model: A Combined Discrete and Continuous Approach
Systematic Approach to Modeling Immune Response
The Flow Topology of the Herzenberg Immunological Control Networks
A Logical Dynamic Systems Approach to the Regulation of Antigen-Driven Lymphocyte Stimulation
Decision Criteria and Coherence in the Regulation of the Immune Response
Antibody Affinity Distribution-Based Models for Vaccine Potency Assessment
On Immune Process Stochastic Structure
Maturation of the Immune Response
Maturation of the Immune Response Via Adaptive Walks On Affinity Landscapes
Affinity Maturation and Ecological Succession
About the Santa Fe Institute
Foreword
Cell Stimulation and Receptor Crosslinking
Desensitization
Histamine Release and the Aggregation of IgE on Human Basophils
Progress Toward Understanding the Molecular Details and Consequences of IgE-Receptor Crosslinking
Two Distinct States of Crosslinked IgE Receptors That May Trigger and Terminate Secretion from RBL-2H3 Mast Cells
A Molecular Basis For Immune Regulation: The Immunon Hypothesis
Cell-Cell Adhesion Resembles Receptor Crosslinking
B Cell Clonogenesis Induced by Anti-Immunoglobulin (Anti-lg) and Interleukins
Antigen Presentation and the Structure of Antigenic Determinants
Where Did the Macrophage Get the Antigen From?
Statistics in Immunology and Biochemistry
Hydrophilicity
Solvent Accessibility and Location of Antigenic Determinants in Proteins
Dynamics of the Immune Response
The Regulation of Lymphocyte Proliferation by Proliferating Lymphocytes: Is Lactate a Central Regulatory Element in the Immune System?
Modeling Dynamical Aspects of the Immune Response: I. T Cell Proliferation and the Effect of IL-2
Role of Multistability in an Immune Response Model: A Combined Discrete and Continuous Approach
Systematic Approach to Modeling Immune Response
The Flow Topology of the Herzenberg Immunological Control Networks
A Logical Dynamic Systems Approach to the Regulation of Antigen-Driven Lymphocyte Stimulation
Decision Criteria and Coherence in the Regulation of the Immune Response
Antibody Affinity Distribution-Based Models for Vaccine Potency Assessment
On Immune Process Stochastic Structure
Maturation of the Immune Response
Maturation of the Immune Response Via Adaptive Walks On Affinity Landscapes
Affinity Maturation and Ecological Succession
Foreword
Cell Stimulation and Receptor Crosslinking
Desensitization
Histamine Release and the Aggregation of IgE on Human Basophils
Progress Toward Understanding the Molecular Details and Consequences of IgE-Receptor Crosslinking
Two Distinct States of Crosslinked IgE Receptors That May Trigger and Terminate Secretion from RBL-2H3 Mast Cells
A Molecular Basis For Immune Regulation: The Immunon Hypothesis
Cell-Cell Adhesion Resembles Receptor Crosslinking
B Cell Clonogenesis Induced by Anti-Immunoglobulin (Anti-lg) and Interleukins
Antigen Presentation and the Structure of Antigenic Determinants
Where Did the Macrophage Get the Antigen From?
Statistics in Immunology and Biochemistry
Hydrophilicity
Solvent Accessibility and Location of Antigenic Determinants in Proteins
Dynamics of the Immune Response
The Regulation of Lymphocyte Proliferation by Proliferating Lymphocytes: Is Lactate a Central Regulatory Element in the Immune System?
Modeling Dynamical Aspects of the Immune Response: I. T Cell Proliferation and the Effect of IL-2
Role of Multistability in an Immune Response Model: A Combined Discrete and Continuous Approach
Systematic Approach to Modeling Immune Response
The Flow Topology of the Herzenberg Immunological Control Networks
A Logical Dynamic Systems Approach to the Regulation of Antigen-Driven Lymphocyte Stimulation
Decision Criteria and Coherence in the Regulation of the Immune Response
Antibody Affinity Distribution-Based Models for Vaccine Potency Assessment
On Immune Process Stochastic Structure
Maturation of the Immune Response
Maturation of the Immune Response Via Adaptive Walks On Affinity Landscapes
Affinity Maturation and Ecological Succession