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Oxidative folding of peptides and proteins / edited by Johannes Buchner and Luis Moroder.

Contributor(s): Material type: TextTextSeries: RSC biomolecular sciencesPublication details: Cambridge : Royal Society of Chemistry, 2009.Description: xxi, 429 p. : ill. (some col.) ; 24 cmISBN:
  • 9780854041480
Subject(s): DDC classification:
  • 572.633 22 BUC
Contents:
Preface. Foreword. Chapter 1. Oxidative Folding of Proteins in Vivo: Thioredoxins and the regulation of redox conditions in prokaryotes; Dsb A B; Eucaryotic PDIs; Structure of Ero1/oxidation in the ER; Oxidative folding in the ER; Oxidative protein folding in mitochondria; Cellular responses to redox stress; Harnessing disulfide bond formation in the periplasm of bacteria for recombinant protein production. Chapter 2. Oxidative Folding of Proteins in vitro: The role of disulfide bonds for folding and stability of proteins; Strategies for the oxidative refolding of disulfide-bonded proteins. Chapter 3. Redox potentials of cysteine residues in peptides and proteins: Methods for their determination. Chapter 4. Engineering disulfide bonds. Chapter 5. Selenocysteine as a probe of oxidative protein folding. Chapter 6. Oxidative Folding of Peptides in vitro: Oxidative folding of single-stranded disulfide-rich Peptides; Regioselective disulfide formation; Folding motifs of cysteine-rich peptides; Double-stranded cysteine-peptides; Multiple-strand cysteine-peptides. Chapter 7. Cysteine-based scaffolds for functional miniature proteins. Chapter 8. Selenocystine-peptides - Synthesis, folding and applications.
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Item type Current library Collection Call number Status Date due Barcode
General Books General Books CUTN Central Library Non-fiction 572.633 BUC (Browse shelf(Opens below)) Available 27590

The formation of disulfide bonds is probably the most influential modification of peptides and proteins. An elaborate set of cellular machinery exists to catalyze and guide this process. In recent years, significant developments have been made in both our understanding of the in vivo situation and the in vitro manipulation of disulfide bonds. This is the first monograph to provide a comprehensive overview of this exciting and rapidly developing area. It offers in-depth insights into the mechanisms of in vivo and in vitro oxidative folding of proteins as well as mono- and multiple-stranded peptides. Procedures applied for laboratory and industrial purposes are also discussed by top experts in the field. The book describes the enzymes involved in the correct oxidative folding of cysteine-containing proteins in prokaryotes and eukaryotes. It then goes on to discuss the mimicking of these enzymes for successful in vitro folding of proteins (including synthetic replicates) and to deal with important issues concerning cysteine-rich peptides. The ability of natural bioactive peptides to fold correctly, and in high yields, to form defined structural motifs using cysteine sequence patterns is still puzzling. With this in mind, synthetic procedures for establishing native cysteine frameworks are discussed using selected examples, such as the potential of selenocysteines. The biotechnological and pharmaceutical relevance of proteins, peptides, their variants and synthetic replicates is continuously increasing. Consequently, this book is invaluable for peptide and protein chemists involved in related research and production

Includes bibliographical references and index.

Preface. Foreword. Chapter 1. Oxidative Folding of Proteins in Vivo: Thioredoxins and the regulation of redox conditions in prokaryotes; Dsb A B; Eucaryotic PDIs; Structure of Ero1/oxidation in the ER; Oxidative folding in the ER; Oxidative protein folding in mitochondria; Cellular responses to redox stress; Harnessing disulfide bond formation in the periplasm of bacteria for recombinant protein production. Chapter 2. Oxidative Folding of Proteins in vitro: The role of disulfide bonds for folding and stability of proteins; Strategies for the oxidative refolding of disulfide-bonded proteins. Chapter 3. Redox potentials of cysteine residues in peptides and proteins: Methods for their determination. Chapter 4. Engineering disulfide bonds. Chapter 5. Selenocysteine as a probe of oxidative protein folding. Chapter 6. Oxidative Folding of Peptides in vitro: Oxidative folding of single-stranded disulfide-rich Peptides; Regioselective disulfide formation; Folding motifs of cysteine-rich peptides; Double-stranded cysteine-peptides; Multiple-strand cysteine-peptides. Chapter 7. Cysteine-based scaffolds for functional miniature proteins. Chapter 8. Selenocystine-peptides - Synthesis, folding and applications.

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