Self-Assembling Peptide Systems in Biology, Medicine and Engineering:
One ofthe major drivers in biological research is the establishment ofstructures and functions of the 50,000 or so proteins in our bodies. Each has a characteristic- dimensional structure, highly "ordered" yet "disordered"! This structure is essential for a protein's functio...
Gespeichert in:
| Hauptverfasser: | , , |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Dordrecht
Springer Netherlands
2002
|
| Schlagworte: | |
| Online-Zugang: | UBR01 URL des Erstveröffentlichers |
| Zusammenfassung: | One ofthe major drivers in biological research is the establishment ofstructures and functions of the 50,000 or so proteins in our bodies. Each has a characteristic- dimensional structure, highly "ordered" yet "disordered"! This structure is essential for a protein's function and, significantly, it must be sustained in the competitive and complex environment of the living cell. It is now being recognised that when a cell loses control, proteins can se- assemble into more complex supermolecular structures such as the amyloid fibres and plaques associated with the pathogenesis of prion (CJD) or age-related (Alzheimer's) diseases. This is a pointer to the wider significance of the self-assembling properties of polypeptides. It has been long known that, in silk, polypeptides are assembled into- sheet structures which impart on the material its highly exploitable properties of flexibility combined with high tensile strength. But only now emerging is the recognition that peptides can Self-assemble into a wide variety of non-protein-like structures, including fibrils, fibres, tubules, sheets and monolayers. These are exciting observations and, more so, the potential for materials and medical exploitations is so wide ranging that over 80 scientists from Europe, USA, Japan and Israel. met 1-6 July 1999 in Crete, to discuss the wide-ranging implications of these novel developments. There was a spirit of excitement about the workshop indicative of an important new endeavor. The emerging perception is that of a new class of materials set to become commercially viable early in the 21st century |
| Beschreibung: | 1 Online-Ressource (XII, 364 p) |
| ISBN: | 9780306468902 |
| DOI: | 10.1007/0-306-46890-5 |
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| 520 | |a One ofthe major drivers in biological research is the establishment ofstructures and functions of the 50,000 or so proteins in our bodies. Each has a characteristic- dimensional structure, highly "ordered" yet "disordered"! This structure is essential for a protein's function and, significantly, it must be sustained in the competitive and complex environment of the living cell. It is now being recognised that when a cell loses control, proteins can se- assemble into more complex supermolecular structures such as the amyloid fibres and plaques associated with the pathogenesis of prion (CJD) or age-related (Alzheimer's) diseases. This is a pointer to the wider significance of the self-assembling properties of polypeptides. It has been long known that, in silk, polypeptides are assembled into- sheet structures which impart on the material its highly exploitable properties of flexibility combined with high tensile strength. But only now emerging is the recognition that peptides can Self-assemble into a wide variety of non-protein-like structures, including fibrils, fibres, tubules, sheets and monolayers. These are exciting observations and, more so, the potential for materials and medical exploitations is so wide ranging that over 80 scientists from Europe, USA, Japan and Israel. met 1-6 July 1999 in Crete, to discuss the wide-ranging implications of these novel developments. There was a spirit of excitement about the workshop indicative of an important new endeavor. The emerging perception is that of a new class of materials set to become commercially viable early in the 21st century | ||
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| author | Aggeli, Amalia Boden, Neville Zhang, Shuguang |
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| spelling | Aggeli, Amalia Verfasser aut Self-Assembling Peptide Systems in Biology, Medicine and Engineering by Amalia Aggeli, Neville Boden, Shuguang Zhang Dordrecht Springer Netherlands 2002 1 Online-Ressource (XII, 364 p) txt rdacontent c rdamedia cr rdacarrier One ofthe major drivers in biological research is the establishment ofstructures and functions of the 50,000 or so proteins in our bodies. Each has a characteristic- dimensional structure, highly "ordered" yet "disordered"! This structure is essential for a protein's function and, significantly, it must be sustained in the competitive and complex environment of the living cell. It is now being recognised that when a cell loses control, proteins can se- assemble into more complex supermolecular structures such as the amyloid fibres and plaques associated with the pathogenesis of prion (CJD) or age-related (Alzheimer's) diseases. This is a pointer to the wider significance of the self-assembling properties of polypeptides. It has been long known that, in silk, polypeptides are assembled into- sheet structures which impart on the material its highly exploitable properties of flexibility combined with high tensile strength. But only now emerging is the recognition that peptides can Self-assemble into a wide variety of non-protein-like structures, including fibrils, fibres, tubules, sheets and monolayers. These are exciting observations and, more so, the potential for materials and medical exploitations is so wide ranging that over 80 scientists from Europe, USA, Japan and Israel. met 1-6 July 1999 in Crete, to discuss the wide-ranging implications of these novel developments. There was a spirit of excitement about the workshop indicative of an important new endeavor. The emerging perception is that of a new class of materials set to become commercially viable early in the 21st century Protein Science Bioorganic Chemistry Biochemistry, general Polymer Sciences Characterization and Evaluation of Materials Biotechnology Biochemistry Bioorganic chemistry Polymers Surfaces (Physics) (DE-588)1071861417 Konferenzschrift gnd-content Boden, Neville aut Zhang, Shuguang aut Erscheint auch als Druck-Ausgabe 9789048157402 Erscheint auch als Druck-Ausgabe 9780792370901 Erscheint auch als Druck-Ausgabe 9789401739016 https://doi.org/10.1007/0-306-46890-5 Verlag URL des Erstveröffentlichers Volltext |
| spellingShingle | Aggeli, Amalia Boden, Neville Zhang, Shuguang Self-Assembling Peptide Systems in Biology, Medicine and Engineering Protein Science Bioorganic Chemistry Biochemistry, general Polymer Sciences Characterization and Evaluation of Materials Biotechnology Biochemistry Bioorganic chemistry Polymers Surfaces (Physics) |
| subject_GND | (DE-588)1071861417 |
| title | Self-Assembling Peptide Systems in Biology, Medicine and Engineering |
| title_auth | Self-Assembling Peptide Systems in Biology, Medicine and Engineering |
| title_exact_search | Self-Assembling Peptide Systems in Biology, Medicine and Engineering |
| title_full | Self-Assembling Peptide Systems in Biology, Medicine and Engineering by Amalia Aggeli, Neville Boden, Shuguang Zhang |
| title_fullStr | Self-Assembling Peptide Systems in Biology, Medicine and Engineering by Amalia Aggeli, Neville Boden, Shuguang Zhang |
| title_full_unstemmed | Self-Assembling Peptide Systems in Biology, Medicine and Engineering by Amalia Aggeli, Neville Boden, Shuguang Zhang |
| title_short | Self-Assembling Peptide Systems in Biology, Medicine and Engineering |
| title_sort | self assembling peptide systems in biology medicine and engineering |
| topic | Protein Science Bioorganic Chemistry Biochemistry, general Polymer Sciences Characterization and Evaluation of Materials Biotechnology Biochemistry Bioorganic chemistry Polymers Surfaces (Physics) |
| topic_facet | Protein Science Bioorganic Chemistry Biochemistry, general Polymer Sciences Characterization and Evaluation of Materials Biotechnology Biochemistry Bioorganic chemistry Polymers Surfaces (Physics) Konferenzschrift |
| url | https://doi.org/10.1007/0-306-46890-5 |
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