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200 10$aDismantling democratic states /$fEzra Suleiman
205   $aCourse Book
210  1$aPrinceton, New Jersey :$cPrinceton University Press,$d2003.
210  4$dİ2003
215   $a1 online resource (342 p.)
300   $aIncludes index.
311   $a1-306-40679-X 
311   $a0-691-12251-2 
320   $aIncludes bibliographical references and index.
327   $t Frontmatter -- $tContents -- $tAcknowledgments -- $tIntroduction -- $tChapter 1. The End of Bureaucracy? -- $tChapter 2. Beyond Weber? -- $tChapter 3. New Conceptions of Bureaucracy, Democracy, and Citizenship -- $tChapter 4. Popular Dissatisfaction and Administrative Reform -- $tChapter 5. Universalistic Reforms -- $tChapter 6. Emulating the Private Sector -- $tChapter 7. The Reluctant Reformers: Japan and France -- $tChapter 8. Deprofessionalization: The Decline of the Civil Service Career -- $tChapter 9. Deprofessionalization: The Process of Politicization -- $tChapter 10. The End of the Nonpolitical Bureaucracy -- $tChapter 11. Constructing a Bureaucratic Apparatus in East-Central Europe -- $tChapter 12. The Politics of Bureaucratic Reform -- $tIndex
330   $aBureaucracy is a much-maligned feature of contemporary government. And yet the aftermath of September 11 has opened the door to a reassessment of the role of a skilled civil service in the survival and viability of democratic society. Here, Ezra Suleiman offers a timely and powerful corrective to the widespread view that bureaucracy is the source of democracy's ills. This is a book as much about good governance as it is about bureaucratic organizations. Suleiman asks: Is democratic governance hindered without an effective instrument in the hands of the legitimately elected political leadership? Is a professional bureaucracy required for developing but not for maintaining a democratic state? Why has a reform movement arisen in recent years championing the gradual dismantling of bureaucracy, and what are the consequences? Suleiman undertakes a comparative analysis of the drive toward a civil service grounded in the New Public Management. He argues that "government reinvention" has limited bureaucracy's capacity to adequately serve the public good. All bureaucracies have been under political pressure in recent years to reduce not only their size but also their effectiveness, and all have experienced growing deprofessionalism and politicization. He compares the impact of this evolution in both democratic societies and societies struggling to consolidate democratic institutions. Dismantling Democratic States cautions that our failure to acknowledge the role of an effective bureaucracy in building and preserving democratic political systems threatens the survival of democracy itself.
606   $aOrganizational change
606   $aAdministrative agencies$xReorganization
606   $aPrivatization
606   $aBureaucracy
606   $aDemocracy
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615  0$aAdministrative agencies$xReorganization.
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200 00$aClick chemistry for biotechnology and materials science /$fedited by Joerg Lahann
210   $aChichester, West Sussex $cWiley$d2009
215   $a1 online resource (433 p.)
300   $aDescription based upon print version of record.
311 08$a9780470699706 
311 08$a0470699701 
320   $aIncludes bibliographical references and index.
327   $aClick Chemistry for Biotechnologyand Materials Science; Contents; Preface; List of Contributors; Acknowledgments; 1 Click Chemistry: A Universal Ligation Strategy for Biotechnology and Materials Science; 1.1 Introduction; 1.2 Selected Examples of Click Reactions in Materials Science and Biotechnology; 1.3 Potential Limitations of Click Chemistry; 1.4 Conclusions; References; 2 Common Synthons for Click Chemistry in Biotechnology; 2.1 Introduction - Click Chemistry; 2.2 Peptides and Derivatives; 2.3 Peptoids; 2.4 Peptidic Dendrimers; 2.5 Oligonucleotides; 2.6 Carbohydrates; 2.7 Conclusion
327   $aReferences3 Copper-free Click Chemistry; 3.1 Introduction; 3.2 Bio-orthogonal Ligations; 3.2.1 Condensations of Ketones and Aldehydes with Heteroatom-bound Amines; 3.2.2 Staudinger Ligation of Phosphines and Azides; 3.2.3 Copper-free Azide-Alkyne Cycloadditions; 3.2.4 Bioorthogonal Ligations of Alkenes; 3.3 Applications of Copper-free Click Chemistries; 3.3.1 Activity-based Profiling of Enzymes; 3.3.2 Site-specific Labeling of Proteins; 3.3.3 Metabolic Labeling of Glycans; 3.3.4 Metabolic Targeting of Other Biomolecules with Chemical Reporters; 3.4 Summary and Outlook; References
327   $a4 Protein and Peptide Conjugation to Polymers and Surfaces Using Oxime Chemistry4.1 Introduction; 4.2 Protein/Peptide-Polymer Conjugates; 4.3 Immobilization of Proteins and Peptides on Surfaces; 4.4 Conclusions; References; 5 The Role of Click Chemistry in Polymer Synthesis; 5.1 Introduction; 5.2 Polymerization via CuAAC; 5.3 Post-polymerization Modification via Click Chemistry; 5.4 Polymer-Biomacromolecule Conjugation; 5.5 Functional Nanomaterials; 5.6 Summary and Outlook; References; 6 Blocks, Stars and Combs: Complex Macromolecular Architecture Polymers via Click Chemistry
327   $a6.1 Introduction6.2 Block Copolymers; 6.2.1 Preparing Polymers for Click Conjugations; 6.2.2 The Click Reaction: Methodologies and Isolation; 6.2.3 Polymer Characterization; 6.3 Star Polymers; 6.3.1 Star polymers An; 6.3.2 Dentritic Star Polymers; 6.4 Graft Copolymers; 6.4.1 'Grafting-to' Azide Main Chains; 6.4.2 'Grafting-to' Alkyne Main Chains; 6.4.3 Non-CuAAC Routes; 6.5 Concluding Remarks; References; 7 Click Chemistry on Supramolecular Materials; 7.1 Introduction; 7.2 Click Reactions on Rotaxanes, Cyclodextrines and Macrocycles; 7.2.1 Click with Rotaxanes; 7.2.2 Click on Cyclodextrines
327   $a7.2.3 Click on Macrocycles7.3 Click Reactions on DNA; 7.4 Click Reactions on Supramolecular Polymers; 7.5 Click Reactions on Membranes; 7.6 Click Reactions on Dendrimers; 7.7 Click Reactions on Gels and Networks; 7.8 Click Reactions on Self-assembled Monolayers; References; 8 Dendrimer Synthesis and Functionalization by Click Chemistry for Biomedical Applications; 8.1 Introduction; 8.2 Dendrimer Synthesis; 8.2.1 Divergent Synthesis; 8.2.2 Convergent Synthesis; 8.3 Dendrimer Functionalization; 8.4 Conclusions and Future Directions; References
327   $a9 Reversible Diels-Alder Cycloaddition for the Design of Multifunctional Network Polymers
330   $aMimicking natural biochemical processes, click chemistry is a modular approach to organic synthesis, joining together small chemical units quickly, efficiently and predictably. In contrast to complex traditional synthesis, click reactions offer high selectivity and yields, near-perfect reliability and exceptional tolerance towards a wide range of functional groups and reaction conditions. These 'spring loaded' reactions are achieved by using a high thermodynamic driving force, and are attracting tremendous attention throughout the chemical community. Originally introduced with the focus on dru
606   $aBiotechnology
606   $aMaterials science
606   $aCombinatorial chemistry
606   $aMacromolecules$xSynthesis
615  0$aBiotechnology.
615  0$aMaterials science.
615  0$aCombinatorial chemistry.
615  0$aMacromolecules$xSynthesis.
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