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Phage display : a practical approach /
This new book aims to enable researchers to design and undertake all aspects of a phage display project, from designing an experimental strategy and constructing a library to performing selections and analyzing the results. All of the protocols and chapters are extensively cross-referenced, allowing...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Oxford ; New York :
Oxford University Press,
©2004.
|
| Colección: | Practical approach series ;
266. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover
- Contents
- Protocol list
- List of abbreviations
- List of contributors
- 1 Introduction to phage biology and phage display
- 1 Introduction
- 2 Biology of filamentous phage
- 2.1 Introduction
- 2.2 Structure of the phage particle
- 2.3 Infection
- 2.4 Replication
- 2.5 Genes and gene expression
- 2.6 Physiology of phage assembly
- 2.7 The mechanics of phage assembly
- 3 Coat proteins used for display
- 3.1 pVIII
- 3.2 pIll
- 4 Starting a phage display project
- 4.1 Feasibility of display
- 4.2 Phage or phagemid vector?
- 4.3 Polyvalent or monovalent display?
- 4.4 Helper phage
- 4.5 General protocols for phage preparation and quantitation
- 5 General principles of a phage display project
- 5.1 Making a library
- 5.2 Selection
- 5.3 Analysis of clones
- 6 Common problems
- 6.1 Library quality
- 6.2 Expression editing
- 6.3 Over-selection
- 7 Alternative display systems
- 8 Commercial sources of phage display libraries and kits
- References
- 2 Constructing phage display libraries by oligonucleotide-directed mutagenesis
- 1 Introduction
- 2 Considerations for library design
- 2.1 Site-directed mutagenesis
- 2.2 Degenerate codon design
- 2.3 Theoretical versus actual diversity
- 3 Oligonucleotide-directed mutagenesis
- 3.1 Oligonucleotide-directed mutagenesis versus cassette mutagenesis
- 3.2 The chemistry and biology of oligonucleotide-directed mutagenesis
- 3.3 Construction of an inactive template
- 4 Library construction and storage
- 4.1 Preparation of single-stranded DNA template
- 4.2 In vitro synthesis of heteroduplex CCC-dsDNA
- 4.3 E.coli electroporation and production of library phage
- 4.4 Library storage and reinfection
- 5 Biological reagents
- References
- 3 In vitro DNA recombination
- 1 Introduction
- 2 Background to in vitro DNA recombination
- 2.1 Use of in vitro DNA recombination in directed evolution
- 2.2 Applications of in vitro DNA recombination
- 2.3 Recombination statistics
- 3 Methods for in vitro DNA recombination
- 3.1 Stemmer method
- 3.2 Random DNA fragmentation with endonuclease V from E. coli
- 3.3 Random priming recombination
- 3.4 Staggered Extension Process (StEP)
- 3.5 In vitro heteroduplex formation and in vivo repair (heteroduplex recombination)
- 3.6 Choice of recombination method
- 3.7 Removal of background
- 3.8 Technical tips
- References
- 4 Phage selection strategies for improved affinity and specificity of proteins and peptides
- 1 Introduction
- 2 Vector considerations
- 2.1 Monovalent and polyvalent phage display
- 2.2 Confirming display
- 2.3 Protein expression from phagemid vectors
- 2.4 Vector construction and phagemid preparation
- 3 Library design
- 3.1 Hard randomization
- 3.2 Soft randomization
- 4 Target presentation
- 4.1 Direct immobilization
- 4.2 Solution binding
- 4.3 Blocking
- 4.4 Pilot selection
- 5 Selection
- 5.1 Binding buffer considerations
- 5.2 Stringency of selection
- 5.3 Competitive selection
- 5.4 Elution of bound phage
- 5.5 Amplification
- 5.6 Monitori.