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BeschreibungNature learned long ago how useful proteins are as a diverse set of building blocks to make materials with very diverse properties. Spider webs, egg whites, hair follicles, and skeletal muscles are all largely protein. This book provides a glimpse into both nature's strategies for the design and produc tion of protein-based materials, and how scientists have been able to go beyond the constraints of natural materials to produce synthetic analogs with potentially wider ranges of properties. The work presented is very much the beginning of the story. Only recently has there been much progress in obtaining a molecular understanding of some of nature's com plex materials, and the mimicry or replacement of these by synthetic or genetically engineered variants is a field still in its infancy. Yet this book will serve as a useful introduction for those wishing to get started in what is sure to be an active and productive field throughout the 21st century. The authors represent a wide range of interests and expertise, and the topics chosen are comprehensive. Charles R. Cantor Center for Advanced Biotechnology Boston University Series Preface The properties of materials depend on the nature of the macromolecules, small molecules and inorganic components and the interfaces and interac tions between them. Polymer chemistry and physics, and inorganic phase structure and density are major factors that influence the performance of materials.
InhaltsverzeichnisSection I: Production of Protein-Based Materials.- 1. Chemical Synthesis of Peptides and Polypeptides.- 2. Biosynthesis of Protein Polymers.- 3. Artificial Proteins: De Novo Design, Synthesis, and Solid-State Properties.- Section II: Useful Classes of Protein-Based Materials.- 4. Silk.- 5. Protein-Based Materials with a Profound Range of Properties and Applications: The Elastin ?Tt Hydrophobic Paradigm.- 6. Protein Composite Materials.- 7. Marine Adhesives: From Molecular Dissection to Application.- Section III: Processing Issues In Protein-Based Materials.- 8. Self-Assembling Protein Systems: A Model for Materials Science.- 9. Liquid Crystalline Behavior of Proteins.- 10. The Spinning of Silklike Protein Into Fibers.- 11. Processing and Characterization of Protein Polymers.- 12. Characterization of Silk like Proteins and Processing for Biomedical Applications.
Untertitel: 'Bioengineering of Materials'. 1997. Auflage. Sprache: Englisch.
Verlag: SPRINGER VERLAG GMBH
Erscheinungsdatum: Dezember 1997
Seitenanzahl: 430 Seiten