06808nam 2200769 a 450 991046219150332120200520144314.01-280-49912-597866135943580-262-30164-49786613594358ebc3339418(CKB)2670000000161968(EBL)3339418(SSID)ssj0000623005(PQKBManifestationID)11400740(PQKBTitleCode)TC0000623005(PQKBWorkID)10647499(PQKB)10959941(MiAaPQ)EBC3339418(OCoLC)782916586(MdBmJHUP)muse24518(OCoLC)782916586(OCoLC)787852695(OCoLC)926258485(OCoLC)1055333933(OCoLC)1066628785(OCoLC)1081234834(OCoLC-P)782916586(MaCbMITP)9147(Au-PeEL)EBL3339418(CaPaEBR)ebr10546483(CaONFJC)MIL359435(EXLCZ)99267000000016196820111017d2012 uy 0engur|n|---|||||txtccrInnovation, dual use, and security[electronic resource] managing the risks of emerging biological and chemical technologies /edited by Jonathan B. Tucker ; foreword by Richard DanzigCambridge, Mass. MIT Press20121 online resource (367 p.)Description based upon print version of record.0-262-51696-9 0-262-01717-2 Includes bibliographical references and index.In Memoriam; Contents; Foreword; Chapter 1. Introduction; Defining Dual Use; The Dual-Use Landscape, Past and Present; The Rise of Synthetic Genomics; Technical Hurdles to Bioterrorism; The Changing Nature of Security Threats; Harm versus Misuse; Misuse Scenarios; Structure of the Book; Acknowledgments; Notes; Part I. Assessing and Managing Dual-Use Risks; Chapter 2. Review of the Literature on Dual Use; Assessing Uncertain Risks; Dual Use as a Societal Process; Approaches to Technology Governance; International Governance Regimes; Conclusions; NotesChapter 3. Current Dual-Use Governance MeasuresArms Control and Disarmament Treaties; National Biosafety and Biosecurity Measures; Soft-Law and Informal Measures; Conclusions; Notes; Chapter 4. The Decision Framework; Technology Monitoring; Technology Assessment; Selection of Governance Measures; Testing the Decision Framework; Conclusions; Notes; Part II. Contemporary Case Studies; A. Technologies for the Acquisition of Novel Biologicalor Molecular Diversity; Chapter 5. Combinatorial Chemistry and High-Throughput Screening; Overview of the Technology; Potential for MisuseCharacteristics of the Technology Relevant to GovernanceConclusions; Notes; Chapter 6. DNA Shuffling and Directed Evolution; Overview of the Technology; Potential for Misuse; Characteristics of the Technology Relevant to Governance; Conclusions; Acknowledgments; Notes; B. Technologies for Directed Design; Chapter 7. Protein Engineering; Overview of the Technology; Potential for Misuse; Characteristics of the Technology Relevant to Governance; Conclusions; Notes; Chapter 8. Synthesis of Viral Genomes; Overview of the Technology; Potential for MisuseCharacteristics of the Technology Relevant to GovernanceConclusions; Notes; Chapter 9. Synthetic Biology with Standard Parts; Overview of the Technology; Potential for Misuse; Characteristics of the Technology Relevant to Governance; Conclusions; Notes; C. Technologies for the Manipulation of Biological Systems; Chapter 10. Development of Psychoactive Drugs; Overview of the Technology; Potential for Misuse; Characteristics of the Technology Relevant to Governance; Conclusions; Notes; Chapter 11. Synthesis of Peptide Bioregulators; Overview of the Technology; Potential for MisuseCharacteristics of the Technology Relevant to GovernanceConclusions; Notes; Chapter 12. Immunological Modulation; Overview of the Technology; Potential for Misuse; Characteristics of the Technology Relevant to Governance; Conclusions; Notes; Chapter 13. Personal Genomics; Overview of the Technology; Potential for Misuse; Characteristics of the Technology Relevant to Governance; Conclusions; Notes; Chapter 14. RNA Interference; Overview of the Technology; Potential for Misuse; Characteristics of the Technology Relevant to Governance; Conclusions; NotesChapter 15. Transcranial Magnetic StimulationRecent advances in disciplines such as biotechnology, nanotechnology, and neuropharmacology entail a "dual-use dilemma" because they promise benefits for human health and welfare yet pose the risk of misuse for hostile purposes. The emerging field of synthetic genomics, for example, can produce custom DNA molecules for life-saving drugs but also makes possible the creation of deadly viral agents for biological warfare or terrorism. The challenge for policymakers is to prevent the misuse of these new technologies without forgoing their benefits . Innovation, Dual Use, and Security offers a systematic approach for managing the dual-use dilemma. The book presents a "decision framework" for assessing the security risks of emerging technologies and fashioning governance strategies to manage those risks. This framework is applied to fourteen contemporary case studies, including synthetic genomics, DNA shuffling and directed evolution, combinatorial chemistry, protein engineering, immunological modulation, and aerosol vaccines. The book also draws useful lessons from two historical cases: the development of the V-series nerve agents in Britain and the use and misuse of LSD by the U.S. Army and the CIA. Innovation, Dual Use, and Security offers a comprehensive, multifaceted introduction to the challenges of governing dual-use technologies in an era of rapid innovation. The book will be of interest to government officials and other practitioners as well as to students and scholars in security studies, science and technology studies, biology, and chemistry.BiotechnologySocial aspectsNanotechnologySocial aspectsBiological weaponsChemical agents (Munitions)Electronic books.BiotechnologySocial aspects.NanotechnologySocial aspects.Biological weapons.Chemical agents (Munitions)660.6/3Tucker Jonathan B1033939MiAaPQMiAaPQMiAaPQBOOK9910462191503321Innovation, dual use, and security2452762UNINA