Features methods of selection, expression, improvement, and library construction of single domain antibodies

Includes step-by-step instruction that has been tested in labs around the world

Provides key tips and implementation advice that is essential for success

Includes supplementary material: [...]

From Whole Monoclonal Antibodies to Single Domain Antibodies: Think Small.- Introduction to Heavy Chain Antibodies and Derived Nanobodies.- Overview and Discovery of IgNARs and Generation of VNARs.- Creation of the Large and Highly Functional Synthetic Repertoire of Human VH and V¿ Domain Antibodies.- Preparation of a Naïve Library of Camelid Single Domain Antibodies.- Selection by Phage Display of Single Domain Antibodies Specific to Antigens in Their Native Conformation.- Semi-Automated Panning of Naive
Camelidae
Libraries and Selection of Single-Domain Antibodies Against Peptide Antigens.- Pichia Surface Display: A Tool for Screening Single Domain Antibodies.- Bacterial Two Hybrid: A Versatile One-Step Intracellular Selection Method.- Intracellular Antibody Capture (IAC) Methods for Single Domain Antibodies.- Selection of Functional Single Domain Antibody Fragments for Interfering with Protein-Protein Interactions Inside Cells: A "One Plasmid" Mammalian Two-Hybrid System.- Cell-Free Selection of Domain Antibodies by In Vitro Compartmentalization.- Selection of VHHs Under Application Conditions.- Isolation and Characterization of
Clostridium difficile
Toxin-Specific Single-Domain Antibodies.- Selection of VHH Antibody Fragments that Recognize Different Aß Depositions Using Complex Immune Libraries.- Expression of Single-Domain Antibodies in Bacterial Systems.- Expression of VHHs in
S. cerevisiae.-
Stable Expression of Chimeric Heavy Chain Antibodies in CHO Cells.- Production of Camel-Like Antibodies in Plants.- Selecting and Purifying Autonomous Human Variable Heavy (VH) Domains.- Solubility and Stability Engineering of Human VH Domains.- Improvement of Proteolytic Stability through In Silico Engineering.- Selection of Human VH Single Domains with Improved Biophysical Properties by Phage Display.- Improvement of Single Domain Antibody Stability by Disulfide Bond Introduction.- Characterization of Single-Domain Antibodies withan Engineered Disulfide Bond.- Affinity Maturation of Single-Domain Antibodies by Yeast Surface Display.- Multivalent Display of Single-Domain Antibodies.- Methods for Determining the PK Parameters of AlbudAbs and of Long Serum Half Life Drugs Made Using the AlbudAb Technology.- Fluorescent Protein Specific Nanotraps to Study Protein-Protein Interactions and Histone-Tail Peptide Binding.- Site-Specific Labeling of His-Tagged Nanobodies with
99m
Tc: A Practical Guide.- Nanobody-Based Chromatin Immunoprecipitation.- User-Friendly Expression Plasmids Enable the Fusion of VHHs to Application-Specific Tags.- Application of Single Domain Antibodies in Tumor Histochemistry.- Nanobodies as Structural Probes of Protein Misfolding and Fibril Formation.- Molecular Imaging Using Nanobodies: A Case Study.- Case Study on Live Cell Apoptosis-Assay Using Lamin-Chromobody Cell-Lines for High-Content Analysis.