Affinity Chromatography - Methods and Protocols

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Forty years after the term "affinity chromatography" was introduced, this mode of chromatography remains a key tool in the armory of separation techniques that are available to separation and interaction scientists. Affinity chromat- raphy is favored because of its high selectivity, speed, and ease of use. The rapid and selective isolation of molecules using affinity chromatography has allowed a better understanding of biological processes, accelerated the identi- cation of target molecules, and spawned new process areas such as immobilized enzyme reactors. It has had ubiquitous application in most areas of science ranging from small molecule isolation to biopolymers such as DNA, proteins, polysaccharides, and even whole cells. The number of applications of affinity chromatography continues to expand at a rapid rate. For example, more than 60% of purification protocols include some sort of affinity chromatography step, while a database search of PubMed reveals more than 36,000 publications making use of the term "affinity chromatography," more than 3000 of which refer to it in their title. The US patent office reports more than 16,000 ref- ences to the term "affinity chromatography", while there are more than 270 references to the same term in the patent title. The aim of this edition of Methods in Molecular Biology, Affinity Chromatography: Methods and Protocols, Second Edition is to provide the beginner with the practical knowledge to develop affinity separations suitable for various applications relevant to the post-genomic era.

Sommario

Preface.- Contributors.- Affinity Chromatography: History, Perspectives, Limitations and ProspectsAna Ceclia A. Roque and Christopher R. Lowe 1.- Various Modes of Affinity Chromatography.- Immobilized Metal Ion Affinity Chromatography of Native ProteinsAdam Charlton and Michael Zachariou.- Affinity Precipitation of Proteins Using Metal ChelatesAshok Kumar, Igor Yu. Galaev, and Bo Mattiasson.- Immunoaffinity ChromatographyStuart R. Gallant, Vish Koppaka, and Nick Zecherle.- Dye Ligand ChromatographyStuart R. Gallant, Vish Koppaka, and Nick Zecherle.- Purification of Proteins Using Displacement ChromatographyNihal Tugcu.- Affinity Chromatography Using Purification Tags.- Rationally Designed Ligands for Use in Affinity Chromatography: An Artificial Protein LAna Ceclia A. Roque and Christopher R. Lowe.- Phage Display of Peptides in Ligand Selection for Use in Affinity ChromatographyJoanne L. Casey, Andrew M. Coley, and Michael Foley.- Preparation, Analysis and Use of an Affinity Adsorbent for the Purification of GST Fusion ProteinGareth M. Forde.- Immobilized Metal Ion Affinity Chromatography of Histidine-Tagged Fusion ProteinsAdam Charlton and Michael Zachariou.- Methods for the Purification of HQ-Tagged ProteinsBecky Godat, Laurie Engel, Natalie A. Betz, and Tonny M. Johnson.- Amylose Affinity Chromatography of Maltose-Binding Protein: Purification by both Native and Novel Matrix-Assisted Dialysis Refolding MethodsLeonard K. Pattenden and Walter G. Thomas.- Methods for Detection of Protein-Protein and Protein-DNA Interactions Using HaloTagMarjeta Urh, Danette Hartzell, Jacqui Mendez, Dieter H. Klaubert, and Keith Wood.- Site-Specific Cleavage of Fusion ProteinsAdam Charlton.- The Use of TAGZyme for the Efficient Removal of N-Terminal His-TagsJose? Arnau, ConniLauritzen, Gitte Ebert Petersen, and John Pedersen.- Various Applications of Affinity Chromatography.- Affinity Processing of Cell-Containing Feeds Using Monolithic Macroporous Hydrogels, CryogelsIgor Yu. Galaev and Bo Mattiasson.- Monolithic Bioreactors for MacromoleculesMojca Ben?ina, Katja Ben?ina, Ales Podgornik, and Ales Strancar.- Plasmid DNA Purification Via the Use of a Dual Affinity ProteinGareth M. Forde.- Affinity Chromatography of Phosphorylated ProteinsGrigoriy S. Tchaga.- Protein Separation Using Immobilized Phospholipid ChromatographyTzong-Hsien Lee and Marie-Isabel Aguilar.- Analysis of Proteins in Solution Using Affinity Capillary ElectrophoresisNiels H. H. Heegaard, Christian Schou, and Jesper Østergaard.

Riassunto

Forty years after the term “affinity chromatography” was introduced, this mode of chromatography remains a key tool in the armory of separation techniques that are available to separation and interaction scientists. Affinity chromat- raphy is favored because of its high selectivity, speed, and ease of use. The rapid and selective isolation of molecules using affinity chromatography has allowed a better understanding of biological processes, accelerated the identi- cation of target molecules, and spawned new process areas such as immobilized enzyme reactors. It has had ubiquitous application in most areas of science ranging from small molecule isolation to biopolymers such as DNA, proteins, polysaccharides, and even whole cells. The number of applications of affinity chromatography continues to expand at a rapid rate. For example, more than 60% of purification protocols include some sort of affinity chromatography step, while a database search of PubMed reveals more than 36,000 publications making use of the term “affinity chromatography,” more than 3000 of which refer to it in their title. The US patent office reports more than 16,000 ref- ences to the term “affinity chromatography”, while there are more than 270 references to the same term in the patent title. The aim of this edition of Methods in Molecular Biology, Affinity Chromatography: Methods and Protocols, Second Edition is to provide the beginner with the practical knowledge to develop affinity separations suitable for various applications relevant to the post-genomic era.

Testo aggiuntivo

From the reviews of the second edition:

"The book consists of three parts including 21 chapters that have been written by a large group of authors from many countries. … recommends this book as a manual for many specialists involved in purification of biomolecules in various fields of biochemistry, molecular biology, biotechnology, and bioorganic chemistry. The book can also be recommended as a handbook for university students and their teachers as well as for other schools preparing specialists in the above-mentioned fields." (G. Ya. Wiederschain, Biochemistry, November, 2008)

Relazione

From the reviews of the second edition:

"The book consists of three parts including 21 chapters that have been written by a large group of authors from many countries. ... recommends this book as a manual for many specialists involved in purification of biomolecules in various fields of biochemistry, molecular biology, biotechnology, and bioorganic chemistry. The book can also be recommended as a handbook for university students and their teachers as well as for other schools preparing specialists in the above-mentioned fields." (G. Ya. Wiederschain, Biochemistry, November, 2008)