The present new version of this popular laboratory manual is at the same time the first one of this text in the English language - and this makes me even a little proud, as it reminds me of probably the first collection of monoclonal recipes in English, written by myself, which circulated for a couple of years in many laboratories. In the meantime many researchers have put enormous effort into improving methods for monoclonal antibody production. The proce dures have become more and more standardized and by this have more and more lost the character of magic secrets. Hinrich Peters and Horst…mehr
The present new version of this popular laboratory manual is at the same time the first one of this text in the English language - and this makes me even a little proud, as it reminds me of probably the first collection of monoclonal recipes in English, written by myself, which circulated for a couple of years in many laboratories. In the meantime many researchers have put enormous effort into improving methods for monoclonal antibody production. The proce dures have become more and more standardized and by this have more and more lost the character of magic secrets. Hinrich Peters and Horst Baumgarten, who had followed this good tradition already in the previous edition, written in German, suc ceeded in making laboratory tricks teachable. They had contributed their own experiences in cell culture and immunology, and were able to engage a number of experienced authors to contribute to the work. They were all willing to follow the general concept of this book, which contains a brief theoretical background for the methods described and presents the procedures in a highly organized structure. So the book has retained its shape as a "cook-book", which I especially like.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
1 Introduction.- 1.1 Principles of Cell Hybridization.- 1.2 Properties and Significance of Monoclonal Antibodies.- 1.3 Use of Monoclonal Antibodies in Human Beings: Quality Control and Legal Aspects.- 2 Preconditions for Hybridoma Technology.- 2.1 Experimental Work with Animals.- 2.2 Equipment of the Cell Culture Laboratory.- 2.3 Equipment for Immunological and Biochemical Work.- 2.4 Organization of the Course of Work (Time Table) and Estimation of Costs.- 3 Immunization.- 3.1 Principles and Strategies for Immunizing Animals.- 3.2 Choice of the Immunogen.- 3.3 Immunizing the Larger Experimental Animals for Antisera Production.- 3.4 Immunizing Mice.- 3.5 Influencing the Immune Response.- 4 Taking Blood and Isolating Cells.- 4.1 Taking Blood from Experimental Animals.- 4.2 Isolating Lymphocytes from Spleen and Lymph Nodes.- 4.3 Isolating Human Lymphocytes from Peripheral Blood, Tonsils, or Spleen.- 4.4 Enriching Antigen-Specific Lymphoblasts for Fusion.- 4.5 Isolating Mouse Peritoneal Macrophages for Use as Feeder Cells.- 5 Cell Culture.- 5.1 Requirements for Cell Culture.- 5.2 Additives to Media: Growth Factors, Conditioned Media.- 5.3 Cryopreservation of Cells.- 5.4 Bacterial and Fungal Infections.- 5.5 Limiting an Infection in Multi-Well Plates.- 5.6 Mycoplasmas.- 5.7 Cell Viability Testing Using Fluorescent Dyes.- 6 Production of Hybridomas.- 6.1 Basics.- 6.2 Fusing Cells to Generate Mouse Monoclonal Antibodies.- 6.3 Human Hybridoma Technique.- 6.4 Other Fusion Methods.- 6.5 Calculating the Number of Hybridoma Clones To Be Expected.- 6.6 Culture and Enrichment of Hybridomas.- 6.7 Cloning Cells.- 6.8 Identifying Human Genomic Material in Mouse-Human Hybridomas.- 6.9 Fine-Tuning Hybridomas.- 6.10 Nomenclature of Monoclonal Antibodies.- 7 Mass Production of Monoclonal Antibodies.- 7.1 Mass Production of Monoclonal Antibodies in Cell Culture or Ascites.- 7.2 Production of Monoclonal Antibodies in Mice.- 7.3 Production of Monoclonal Antibodies in Bioreactors.- 7.4 Serum-Free Cell Culture.- 7.5 Checking the Antibody Properties.- 8 Purifying Monoclonal Antibodies and Producing Antibody Fragments.- 8.1 Purification of Monoclonal Antibodies: an Overview.- 8.2 Producing Immunoreactive Fragments from Mouse Monoclonal Antibodies.- 9 Coupling Monoclonal Antibodies.- 9.1 Basic Principles.- 9.2 Conjugation of Enzymes to Monoclonal Antibodies.- 9.3 Biotinylating Monoclonal Antibodies.- 9.4 Conjugating Fluorochromes to Monoclonal Antibodies.- 9.5 Conjugating Monoclonal Antibodies to Solid Phases (Immune Absorption).- 10 Demonstration of Monoclonal Antibodies.- 10.1 How To Find the Correct Monoclonal Antibody.- 10.2 Immunoassays for Soluble Antigens: a Survey.- 10.3 ELISA for Demonstration of Monoclonal Antibodies Against Soluble Antigens.- 10.4 Quantitative Tests to Demonstrate the Synthetic Capacity of Hybridoma Cells.- 10.5 Selection of a Test System for Antibodies Against Cellular Antigens.- 10.6 Immunofluorescence Demonstration of Cytoplasmic Ig in Fixed Lymphocytes.- 10.7 Immunofluorescence Demonstration of Membrane Antigens on Living Lymphocytes.- 10.8 Immunocytochemical Staining Techniques.- 10.9 Immunocytochemical Demonstration of Membrane Antigens on Living Cells.- 10.10 ELISA Demonstration of Antigens in Fixed Cells (Cell ELISA).- 10.11 Local Demonstration of Specific Antibody.- 10.12 Dot Immunobinding Test.- 10.13 Molecular Weight Determination of Membrane Antigens by Means of Chemiluminescence-Autography and Sequential Immunoprecipitation.- 10.14 Depletion of Cells in Suspension by Use of Particle-Bound Antibodies (Magnetic Particles).-10.15 Typing Class and Subclass (Isotyping) of Mouse Antibodies by Means of ELISA.- 10.16 Analytical HPLC of Monoclonal Antibodies.- 10.17 Analytical SDS Polyacrylamide Gel Electrophoresis (SDS-PAGE).- 10.18 Analytical Isoelectric Focusing of Monoclonal Antibodies.- 10.19 Silver Staining of Polyacrylamide Gels.- 10.20 Protein Blotting, Immunoblotting ("Western Blot").- 10.21 Epitope Analysis.- 11 Safety Precautions at Work.- 12 Appendix.- 12.1 Monographs.- 12.2 Reference Works for Obtaining Cells, Reagents, and Laboratory Equipment.- 12.3 Addresses of Firms.
1 Introduction.- 1.1 Principles of Cell Hybridization.- 1.2 Properties and Significance of Monoclonal Antibodies.- 1.3 Use of Monoclonal Antibodies in Human Beings: Quality Control and Legal Aspects.- 2 Preconditions for Hybridoma Technology.- 2.1 Experimental Work with Animals.- 2.2 Equipment of the Cell Culture Laboratory.- 2.3 Equipment for Immunological and Biochemical Work.- 2.4 Organization of the Course of Work (Time Table) and Estimation of Costs.- 3 Immunization.- 3.1 Principles and Strategies for Immunizing Animals.- 3.2 Choice of the Immunogen.- 3.3 Immunizing the Larger Experimental Animals for Antisera Production.- 3.4 Immunizing Mice.- 3.5 Influencing the Immune Response.- 4 Taking Blood and Isolating Cells.- 4.1 Taking Blood from Experimental Animals.- 4.2 Isolating Lymphocytes from Spleen and Lymph Nodes.- 4.3 Isolating Human Lymphocytes from Peripheral Blood, Tonsils, or Spleen.- 4.4 Enriching Antigen-Specific Lymphoblasts for Fusion.- 4.5 Isolating Mouse Peritoneal Macrophages for Use as Feeder Cells.- 5 Cell Culture.- 5.1 Requirements for Cell Culture.- 5.2 Additives to Media: Growth Factors, Conditioned Media.- 5.3 Cryopreservation of Cells.- 5.4 Bacterial and Fungal Infections.- 5.5 Limiting an Infection in Multi-Well Plates.- 5.6 Mycoplasmas.- 5.7 Cell Viability Testing Using Fluorescent Dyes.- 6 Production of Hybridomas.- 6.1 Basics.- 6.2 Fusing Cells to Generate Mouse Monoclonal Antibodies.- 6.3 Human Hybridoma Technique.- 6.4 Other Fusion Methods.- 6.5 Calculating the Number of Hybridoma Clones To Be Expected.- 6.6 Culture and Enrichment of Hybridomas.- 6.7 Cloning Cells.- 6.8 Identifying Human Genomic Material in Mouse-Human Hybridomas.- 6.9 Fine-Tuning Hybridomas.- 6.10 Nomenclature of Monoclonal Antibodies.- 7 Mass Production of Monoclonal Antibodies.- 7.1 Mass Production of Monoclonal Antibodies in Cell Culture or Ascites.- 7.2 Production of Monoclonal Antibodies in Mice.- 7.3 Production of Monoclonal Antibodies in Bioreactors.- 7.4 Serum-Free Cell Culture.- 7.5 Checking the Antibody Properties.- 8 Purifying Monoclonal Antibodies and Producing Antibody Fragments.- 8.1 Purification of Monoclonal Antibodies: an Overview.- 8.2 Producing Immunoreactive Fragments from Mouse Monoclonal Antibodies.- 9 Coupling Monoclonal Antibodies.- 9.1 Basic Principles.- 9.2 Conjugation of Enzymes to Monoclonal Antibodies.- 9.3 Biotinylating Monoclonal Antibodies.- 9.4 Conjugating Fluorochromes to Monoclonal Antibodies.- 9.5 Conjugating Monoclonal Antibodies to Solid Phases (Immune Absorption).- 10 Demonstration of Monoclonal Antibodies.- 10.1 How To Find the Correct Monoclonal Antibody.- 10.2 Immunoassays for Soluble Antigens: a Survey.- 10.3 ELISA for Demonstration of Monoclonal Antibodies Against Soluble Antigens.- 10.4 Quantitative Tests to Demonstrate the Synthetic Capacity of Hybridoma Cells.- 10.5 Selection of a Test System for Antibodies Against Cellular Antigens.- 10.6 Immunofluorescence Demonstration of Cytoplasmic Ig in Fixed Lymphocytes.- 10.7 Immunofluorescence Demonstration of Membrane Antigens on Living Lymphocytes.- 10.8 Immunocytochemical Staining Techniques.- 10.9 Immunocytochemical Demonstration of Membrane Antigens on Living Cells.- 10.10 ELISA Demonstration of Antigens in Fixed Cells (Cell ELISA).- 10.11 Local Demonstration of Specific Antibody.- 10.12 Dot Immunobinding Test.- 10.13 Molecular Weight Determination of Membrane Antigens by Means of Chemiluminescence-Autography and Sequential Immunoprecipitation.- 10.14 Depletion of Cells in Suspension by Use of Particle-Bound Antibodies (Magnetic Particles).-10.15 Typing Class and Subclass (Isotyping) of Mouse Antibodies by Means of ELISA.- 10.16 Analytical HPLC of Monoclonal Antibodies.- 10.17 Analytical SDS Polyacrylamide Gel Electrophoresis (SDS-PAGE).- 10.18 Analytical Isoelectric Focusing of Monoclonal Antibodies.- 10.19 Silver Staining of Polyacrylamide Gels.- 10.20 Protein Blotting, Immunoblotting ("Western Blot").- 10.21 Epitope Analysis.- 11 Safety Precautions at Work.- 12 Appendix.- 12.1 Monographs.- 12.2 Reference Works for Obtaining Cells, Reagents, and Laboratory Equipment.- 12.3 Addresses of Firms.
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