K. C. (The Scripps Research Institute and UC San Diego, La Jolla, USA) Nicolaou
Meer over de auteurs
K. C. (The Scripps Research Institute and UC San Diego, La Jolla, USA) Nicolaou,
KC Nicolaou,
Jason S. (The Scripps Research Institute, La Jolla, USA) Chen
John Wiley & Sons
e druk, 2011
9783527329571
Classics in Total Synthesis III – Further Targets, Strategies, Methods
Further Targets, Strategies, Methods
Specificaties
Paperback, 770 blz.
|
Engels
John Wiley & Sons |
e druk, 2011
ISBN13: 9783527329571
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Juridisch
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Verwachte levertijd ongeveer 16 werkdagen
Samenvatting
K.C. Nicolaou – Winner of the Nemitsas Prize 2014 in Chemistry Adopting his didactically skillful approach, K.C. Nicolaou compiles in this textbook the important synthetic methods that lead to a complex molecule with valuable properties. He explains all the key steps of the synthetic pathway, highlighting the major developments in blue–boxed sections and contrasting these to other synthetic methods.
A wonderful tool for learning and teaching and a must–have for all future and present organic and biochemists.
Specificaties
Inhoudsopgave
Chapter 1. Introduction: The Advancing Field of Total Synthesis.
<p>1.1 Targets.</p>
<p>1.2 Strategies and Methods.</p>
<p>1.3 Classics in Total Synthesis III.</p>
<p>Chapter 2. Tetrodotoxin (Y. Kishi, J. Du Bois) (1972; 2003).</p>
<p>2.1 Introduction.</p>
<p>2.2 Kishi s Retrosynthetic Analysis and Strategy.</p>
<p>2.3 Kishi s Totla Synthesis.</p>
<p>2.4 Du Bois Retrosynthetic Anaysis and Strategy.</p>
<p>2.5 Du Bois Total Synthesis.</p>
<p>2.6 Conclusion.</p>
<p>Chapter 3. Discodermolide (Novartis: S. J. Mickel, I. Paterson, A. B. Smith, III) (2004).</p>
<p>3.1 Introduction.</p>
<p>3.2 Retrosynthetic Analysis and Strategy.</p>
<p>3.3 Total synthesis.</p>
<p>3.4 Conclusion.</p>
<p>Chapter 4. Azaspiracid I (K. C. Nicolaou, D. A. Evans) (2004, 2006, 2007).</p>
<p>4.1 Introduction.</p>
<p>4.2 Nicolaou s Retrosynthetic Analysis and Stratrgy.</p>
<p>4.3 Nicolaou s Total Synthesis.</p>
<p>4.4 Evans Retrosynthetic Analysis and Strategy.</p>
<p>4.5 Evans Total Synthesis.</p>
<p>4.6 Conclusion.</p>
<p>Chapter 5. Thiostrepton (K. C. Nicolaou) (2004).</p>
<p>5.1 Introduction.</p>
<p>5.2 Retrosynthetic Analysis and Strategy.</p>
<p>5.3 Total Synthesis.</p>
<p>5.4 Conclusion.</p>
<p>Chapter 6. Pentacycloanammoxic Acid Methyl Ester (E. J. Corey (2004, 2006).</p>
<p>6.1 Introduction.</p>
<p>6.2 First–Generation Retrosynthetic Analysis and Strategy.</p>
<p>6.3 First–Generation Total Synthesis.</p>
<p>6.4 Second–Generation Retrosynthetic Analysis and Strategy.</p>
<p>6.5 Second–Generation Total Synthesis.</p>
<p>6.6 Conclusion.</p>
<p>Chapter 7. Littoralisone, Oseltamivir (Tamiflu®), and Hirsutellone B (D. W. C. MacMillan, Y. Hayashi, K. C. Nicolaou ) (2005, 2009, 2009).</p>
<p>7.1 Introduction.</p>
<p>7.2 Introduction to Littoralisone.</p>
<p>7.3 Total Synthesis of Littoralisone.</p>
<p>7.4 Introduction to Oseltamivir (Tamiflu®).</p>
<p>7.5 Total Synthesis of Oseltamivir (Tamiflu®).</p>
<p>7.6 Introduction to Hirsutellone B.</p>
<p>7.7 Total Synthesis of Hirsutellone B.</p>
<p>7.8 Conclusion.</p>
<p>Chapter 8. Rubicordifolin and Rubiocolin B (D. Trauner) (2005, 2008).</p>
<p>8.1 Introduction.</p>
<p>8.2 Retrosynthetic Analysis of Rubicordifolin.</p>
<p>8.3 Total Synthesis of Rubicordifolin.</p>
<p>8.4 Retrosynthetic Analysis of Rubioncolin B.</p>
<p>8.5 Total Synthesis of Rubioncolin B.</p>
<p>8.6 Conclusion.</p>
<p>Chapter 9. Cyanthiwigins U and F (A. J. Phillips, B. M. Stoltz) (2005, 2008).</p>
<p>9.1 Introduction.</p>
<p>9.2 Phillips Retrosynthesis Analysis and Strategy.</p>
<p>9.3 Phillips Total Synthesis.</p>
<p>9.4 Stoltz Retrosynthetic Analysis and Strategy.</p>
<p>9.5 Stoltz Total Synthesis.</p>
<p>9.6 Conclusion.</p>
<p>Chapter 10. Stephacidin B (A. G. Myers, P. S. Baran, R. M. Williams) (2005, 2005, 2007).</p>
<p>10.1 Introduction.</p>
<p>10.2 Myers Retrosynthetic Analysis and Strategy.</p>
<p>10.3 Myers Total Synthesis.</p>
<p>10.4 Baran s Retrosynthetic Analysis and Strategy.</p>
<p>10.5 Baran s Total Synthesis.</p>
<p>10.6 Williams Retrosynthetic Analysis and Strategy.</p>
<p>10.7 Williams Total Synthesis.</p>
<p>10.8 Conclusion.</p>
<p>Chapter 11. Abyssomicin C and atrop–Abyssomicin C (E. J. Sorensen, K. C. Nicolaou) (2005, 2006).</p>
<p>11.1 Introduction.</p>
<p>11.2 Sorensen s Retrosynthetic Analysis and Strategy.</p>
<p>11.3 Sorensen s Total Synthesis of Abyssomicin C.</p>
<p>11.4 Nicolaou s Retrosynthetic Analysis and Strategy.</p>
<p>11.5 Nicolaou s Total Synthesis of Abyssomicin C and atrop–Abyssomicin C.</p>
<p>11.6 Conclusion.</p>
<p>Chapter 12. Tetracycline (A. G. Myers). (2005, 2007).</p>
<p>12.1 Introduction.</p>
<p>12.2 Retrosynthetic Analysis and Strategy.</p>
<p>12.3 Total Synthesis.</p>
<p>12.4 Conclusion.</p>
<p>Chapter 13. Bisanthraquinone Natural Products (K.Nicolaou) (2005, 2009).</p>
<p>13.1 Introduction.</p>
<p>13.2 Retrosynthetic Analysis and Strategy Toward 2,2 epi–Cytoskyrin A, Rugulosin, and Rugulin, and Rugulin.</p>
<p>13.3 Total Synthesis of 2,2 epi–Cytoskyrin A, Rugulosin, and Rugulin.</p>
<p>13.4 Retrosynthetic Analysis and Strategy Toward Antibiotic BE–43472B.</p>
<p>13.5 Total Synthesis of Antibiotic BE–43472B.</p>
<p>13.6 Conclusion.</p>
<p>Chapter 14. Garsubellin A (M. Shibasaki, M. Kanai, S. J. Danishefsky) (2205, 2006).</p>
<p>14.1 Introduction.</p>
<p>14.2 Shibasaki and Kanai s Retrosynthetic Analysis and Strategy.</p>
<p>14.3 Shibasaki and Kanai s Total Synthesis.</p>
<p>14.4 Danishefsky s Retrosynthetic Analysis and Strategy.</p>
<p>14.5 Danishefsky s Total Synthesis.</p>
<p>14.6 Conclusion.</p>
<p>Chapter 15. Welwitindolinone A (P. S. Baran, J. L. Wood) (2005, 2006).</p>
<p>15.1 Introduction.</p>
<p>15.2 Baran s Retrosynthetic Analysis and Strategy.</p>
<p>15.3 Baran s Total Synthesis.</p>
<p>15.4 Wood s Retrosynthetic Analysis and Strategy.</p>
<p>15.5 Wood s Total Synthesis.</p>
<p>15.6 Conclusion.</p>
<p>Chapter 16. Iejimalide B (A. Fürstner) (2006, 2007).</p>
<p>16.1 Introduction.</p>
<p>16.2 Retrosynthetic Analysis and Strategy.</p>
<p>16.3 Total Synthesis.</p>
<p>16.4 Conclusion.</p>
<p>Chapter 17. Kedarcidin Chromophore and Maduropeptin Chromophore (A. G. Myers, M. Hirama, M. Inoue, I. Sato) (2007, 2009).</p>
<p>17.1 Introduction.</p>
<p>17.2 Retrosynthetic Analysis and Strategy for Kedarcidin Chromophore.</p>
<p>17.3 Total Synthesis of Kedarcidin Chromophore.</p>
<p>17.4 Retrosynthetic Analysis and Strategy for Maduropeptin Chromophore.</p>
<p>17.5 Total Synthesis of Maduropeptin Chromophore.</p>
<p>17.6 Conclusion.</p>
<p>Chapter 18. Biyouranagin A (K. C. Nicolaou) (2007).</p>
<p>18.1 Introduction.</p>
<p>18.2 Retrosynthetic Analysis and Strategy.</p>
<p>18.3 Total Synthesis.</p>
<p>18.4 Conclusion.</p>
<p>Chapter 19. Azadirachtin (S. V. Ley) (2007, 2009).</p>
<p>19.1 Introduction.</p>
<p>19.2 Retrosynthetic Analysis and Strategy.</p>
<p>19.3 Synthesis.</p>
<p>19.4 Conclusion.</p>
<p>Chapter 20. Resveratro–Derived Natural Products (S. A. Snyder, K. C. Nicolaou, D. Y.–K. Chen) (2007, 2009, 2010).</p>
<p>20.1 Introduction.</p>
<p>20.2 Snyder s Retrosynthetic Analysis and Strategy for a Collection of Resveratrol–Derived Natural Products.</p>
<p>20.3 Snyder s Total Synthesis of a Collection of Resveratrol–Derived Natural Products.</p>
<p>20.4 Nicolaou and Chen s Retrosynthetic Analysis and Strategy for Hopeahainol A and Hopeanol.</p>
<p>20.5 Nicolaou and Chen s Total Synthesis of Hopeahianol A and Hopeanol.</p>
<p>20.6 Conclusion.</p>
<p>Chapter 21. Chlorosulfolipid Cytotoxin (E. M. Carreira) (2009).</p>
<p>21.1 Introduction.</p>
<p>21.2 Retrosynthetic Analysis and Strategy.</p>
<p>21.3 Total Synthesis.</p>
<p>21.4 Conclusion.</p>
<p>Chapter 22. Sporolide B (K. C. Nicolaou) (2009).</p>
<p>22.1 Inroduction.</p>
<p>22.2 Retrosynthetic Analysis and Strategy.</p>
<p>22.3 Total Synthesis.</p>
<p>22.4 Conclusion.</p>
<p>Chapter 23. 11, 11 Dideoxyverticillin A and Chaetocin (M. Movassaghi, M. Sodeoka) (2009, 2010).</p>
<p> 23.1 Introduction.</p>
<p>23.2 Retrosynthetic Analysis and Strategy for 11, 11 Dideoxyverticillin A.</p>
<p>23.3 Total Synthesis of 11, 11 Dideoxyverticillin A.</p>
<p>23.4 Retrosynthetic Analysis and Strategy for Chaetocin.</p>
<p>23.5 Total Synthesis of Chaetocin.</p>
<p>23.6 Conclusion.</p>
<p>Chapter 24. Vannusal B (K. C. Nicolaou) (2009).</p>
<p>24.1 Introduction.</p>
<p>24.2 Retrosynthetic Analysis and Strategy.</p>
<p>24.3 Total Synthesis.</p>
<p>24.4 Conclusion.</p>
<p>Chapter 25. Haplophytine (T. Fukuyama, H. Tokuyama, K. C. Nicolaou, D.Y. K. Chen) (2009, 2009).</p>
<p>25.1 Introduction.</p>
<p>25.2 Fukuyama and Tokuyama s Retrosynthetic Analysis and Strategy.</p>
<p>25.3 Fukuyama and Tokuyama s Total Synthetis.</p>
<p>25.4 Nicolaou and Chen s Retrosynthetic Analysis and Strategy.</p>
<p>25.5 Nicolaou and Chen s Total Synthesis.</p>
<p>25.6 Conclusion.</p>
<p>Chapter 26. Palau amine (P. S. Baran) (2010).</p>
<p>26.1 Introduction.</p>
<p>26.2 Retrosynthetic Analysis and Strategy.</p>
<p>26.3 Total Synthesis.</p>
<p>26.4 Conclusion.</p>
<p>Image / Photo Credits.</p>
<p>Author Index.</p>
<p>Subject Index.</p>
<p>1.1 Targets.</p>
<p>1.2 Strategies and Methods.</p>
<p>1.3 Classics in Total Synthesis III.</p>
<p>Chapter 2. Tetrodotoxin (Y. Kishi, J. Du Bois) (1972; 2003).</p>
<p>2.1 Introduction.</p>
<p>2.2 Kishi s Retrosynthetic Analysis and Strategy.</p>
<p>2.3 Kishi s Totla Synthesis.</p>
<p>2.4 Du Bois Retrosynthetic Anaysis and Strategy.</p>
<p>2.5 Du Bois Total Synthesis.</p>
<p>2.6 Conclusion.</p>
<p>Chapter 3. Discodermolide (Novartis: S. J. Mickel, I. Paterson, A. B. Smith, III) (2004).</p>
<p>3.1 Introduction.</p>
<p>3.2 Retrosynthetic Analysis and Strategy.</p>
<p>3.3 Total synthesis.</p>
<p>3.4 Conclusion.</p>
<p>Chapter 4. Azaspiracid I (K. C. Nicolaou, D. A. Evans) (2004, 2006, 2007).</p>
<p>4.1 Introduction.</p>
<p>4.2 Nicolaou s Retrosynthetic Analysis and Stratrgy.</p>
<p>4.3 Nicolaou s Total Synthesis.</p>
<p>4.4 Evans Retrosynthetic Analysis and Strategy.</p>
<p>4.5 Evans Total Synthesis.</p>
<p>4.6 Conclusion.</p>
<p>Chapter 5. Thiostrepton (K. C. Nicolaou) (2004).</p>
<p>5.1 Introduction.</p>
<p>5.2 Retrosynthetic Analysis and Strategy.</p>
<p>5.3 Total Synthesis.</p>
<p>5.4 Conclusion.</p>
<p>Chapter 6. Pentacycloanammoxic Acid Methyl Ester (E. J. Corey (2004, 2006).</p>
<p>6.1 Introduction.</p>
<p>6.2 First–Generation Retrosynthetic Analysis and Strategy.</p>
<p>6.3 First–Generation Total Synthesis.</p>
<p>6.4 Second–Generation Retrosynthetic Analysis and Strategy.</p>
<p>6.5 Second–Generation Total Synthesis.</p>
<p>6.6 Conclusion.</p>
<p>Chapter 7. Littoralisone, Oseltamivir (Tamiflu®), and Hirsutellone B (D. W. C. MacMillan, Y. Hayashi, K. C. Nicolaou ) (2005, 2009, 2009).</p>
<p>7.1 Introduction.</p>
<p>7.2 Introduction to Littoralisone.</p>
<p>7.3 Total Synthesis of Littoralisone.</p>
<p>7.4 Introduction to Oseltamivir (Tamiflu®).</p>
<p>7.5 Total Synthesis of Oseltamivir (Tamiflu®).</p>
<p>7.6 Introduction to Hirsutellone B.</p>
<p>7.7 Total Synthesis of Hirsutellone B.</p>
<p>7.8 Conclusion.</p>
<p>Chapter 8. Rubicordifolin and Rubiocolin B (D. Trauner) (2005, 2008).</p>
<p>8.1 Introduction.</p>
<p>8.2 Retrosynthetic Analysis of Rubicordifolin.</p>
<p>8.3 Total Synthesis of Rubicordifolin.</p>
<p>8.4 Retrosynthetic Analysis of Rubioncolin B.</p>
<p>8.5 Total Synthesis of Rubioncolin B.</p>
<p>8.6 Conclusion.</p>
<p>Chapter 9. Cyanthiwigins U and F (A. J. Phillips, B. M. Stoltz) (2005, 2008).</p>
<p>9.1 Introduction.</p>
<p>9.2 Phillips Retrosynthesis Analysis and Strategy.</p>
<p>9.3 Phillips Total Synthesis.</p>
<p>9.4 Stoltz Retrosynthetic Analysis and Strategy.</p>
<p>9.5 Stoltz Total Synthesis.</p>
<p>9.6 Conclusion.</p>
<p>Chapter 10. Stephacidin B (A. G. Myers, P. S. Baran, R. M. Williams) (2005, 2005, 2007).</p>
<p>10.1 Introduction.</p>
<p>10.2 Myers Retrosynthetic Analysis and Strategy.</p>
<p>10.3 Myers Total Synthesis.</p>
<p>10.4 Baran s Retrosynthetic Analysis and Strategy.</p>
<p>10.5 Baran s Total Synthesis.</p>
<p>10.6 Williams Retrosynthetic Analysis and Strategy.</p>
<p>10.7 Williams Total Synthesis.</p>
<p>10.8 Conclusion.</p>
<p>Chapter 11. Abyssomicin C and atrop–Abyssomicin C (E. J. Sorensen, K. C. Nicolaou) (2005, 2006).</p>
<p>11.1 Introduction.</p>
<p>11.2 Sorensen s Retrosynthetic Analysis and Strategy.</p>
<p>11.3 Sorensen s Total Synthesis of Abyssomicin C.</p>
<p>11.4 Nicolaou s Retrosynthetic Analysis and Strategy.</p>
<p>11.5 Nicolaou s Total Synthesis of Abyssomicin C and atrop–Abyssomicin C.</p>
<p>11.6 Conclusion.</p>
<p>Chapter 12. Tetracycline (A. G. Myers). (2005, 2007).</p>
<p>12.1 Introduction.</p>
<p>12.2 Retrosynthetic Analysis and Strategy.</p>
<p>12.3 Total Synthesis.</p>
<p>12.4 Conclusion.</p>
<p>Chapter 13. Bisanthraquinone Natural Products (K.Nicolaou) (2005, 2009).</p>
<p>13.1 Introduction.</p>
<p>13.2 Retrosynthetic Analysis and Strategy Toward 2,2 epi–Cytoskyrin A, Rugulosin, and Rugulin, and Rugulin.</p>
<p>13.3 Total Synthesis of 2,2 epi–Cytoskyrin A, Rugulosin, and Rugulin.</p>
<p>13.4 Retrosynthetic Analysis and Strategy Toward Antibiotic BE–43472B.</p>
<p>13.5 Total Synthesis of Antibiotic BE–43472B.</p>
<p>13.6 Conclusion.</p>
<p>Chapter 14. Garsubellin A (M. Shibasaki, M. Kanai, S. J. Danishefsky) (2205, 2006).</p>
<p>14.1 Introduction.</p>
<p>14.2 Shibasaki and Kanai s Retrosynthetic Analysis and Strategy.</p>
<p>14.3 Shibasaki and Kanai s Total Synthesis.</p>
<p>14.4 Danishefsky s Retrosynthetic Analysis and Strategy.</p>
<p>14.5 Danishefsky s Total Synthesis.</p>
<p>14.6 Conclusion.</p>
<p>Chapter 15. Welwitindolinone A (P. S. Baran, J. L. Wood) (2005, 2006).</p>
<p>15.1 Introduction.</p>
<p>15.2 Baran s Retrosynthetic Analysis and Strategy.</p>
<p>15.3 Baran s Total Synthesis.</p>
<p>15.4 Wood s Retrosynthetic Analysis and Strategy.</p>
<p>15.5 Wood s Total Synthesis.</p>
<p>15.6 Conclusion.</p>
<p>Chapter 16. Iejimalide B (A. Fürstner) (2006, 2007).</p>
<p>16.1 Introduction.</p>
<p>16.2 Retrosynthetic Analysis and Strategy.</p>
<p>16.3 Total Synthesis.</p>
<p>16.4 Conclusion.</p>
<p>Chapter 17. Kedarcidin Chromophore and Maduropeptin Chromophore (A. G. Myers, M. Hirama, M. Inoue, I. Sato) (2007, 2009).</p>
<p>17.1 Introduction.</p>
<p>17.2 Retrosynthetic Analysis and Strategy for Kedarcidin Chromophore.</p>
<p>17.3 Total Synthesis of Kedarcidin Chromophore.</p>
<p>17.4 Retrosynthetic Analysis and Strategy for Maduropeptin Chromophore.</p>
<p>17.5 Total Synthesis of Maduropeptin Chromophore.</p>
<p>17.6 Conclusion.</p>
<p>Chapter 18. Biyouranagin A (K. C. Nicolaou) (2007).</p>
<p>18.1 Introduction.</p>
<p>18.2 Retrosynthetic Analysis and Strategy.</p>
<p>18.3 Total Synthesis.</p>
<p>18.4 Conclusion.</p>
<p>Chapter 19. Azadirachtin (S. V. Ley) (2007, 2009).</p>
<p>19.1 Introduction.</p>
<p>19.2 Retrosynthetic Analysis and Strategy.</p>
<p>19.3 Synthesis.</p>
<p>19.4 Conclusion.</p>
<p>Chapter 20. Resveratro–Derived Natural Products (S. A. Snyder, K. C. Nicolaou, D. Y.–K. Chen) (2007, 2009, 2010).</p>
<p>20.1 Introduction.</p>
<p>20.2 Snyder s Retrosynthetic Analysis and Strategy for a Collection of Resveratrol–Derived Natural Products.</p>
<p>20.3 Snyder s Total Synthesis of a Collection of Resveratrol–Derived Natural Products.</p>
<p>20.4 Nicolaou and Chen s Retrosynthetic Analysis and Strategy for Hopeahainol A and Hopeanol.</p>
<p>20.5 Nicolaou and Chen s Total Synthesis of Hopeahianol A and Hopeanol.</p>
<p>20.6 Conclusion.</p>
<p>Chapter 21. Chlorosulfolipid Cytotoxin (E. M. Carreira) (2009).</p>
<p>21.1 Introduction.</p>
<p>21.2 Retrosynthetic Analysis and Strategy.</p>
<p>21.3 Total Synthesis.</p>
<p>21.4 Conclusion.</p>
<p>Chapter 22. Sporolide B (K. C. Nicolaou) (2009).</p>
<p>22.1 Inroduction.</p>
<p>22.2 Retrosynthetic Analysis and Strategy.</p>
<p>22.3 Total Synthesis.</p>
<p>22.4 Conclusion.</p>
<p>Chapter 23. 11, 11 Dideoxyverticillin A and Chaetocin (M. Movassaghi, M. Sodeoka) (2009, 2010).</p>
<p> 23.1 Introduction.</p>
<p>23.2 Retrosynthetic Analysis and Strategy for 11, 11 Dideoxyverticillin A.</p>
<p>23.3 Total Synthesis of 11, 11 Dideoxyverticillin A.</p>
<p>23.4 Retrosynthetic Analysis and Strategy for Chaetocin.</p>
<p>23.5 Total Synthesis of Chaetocin.</p>
<p>23.6 Conclusion.</p>
<p>Chapter 24. Vannusal B (K. C. Nicolaou) (2009).</p>
<p>24.1 Introduction.</p>
<p>24.2 Retrosynthetic Analysis and Strategy.</p>
<p>24.3 Total Synthesis.</p>
<p>24.4 Conclusion.</p>
<p>Chapter 25. Haplophytine (T. Fukuyama, H. Tokuyama, K. C. Nicolaou, D.Y. K. Chen) (2009, 2009).</p>
<p>25.1 Introduction.</p>
<p>25.2 Fukuyama and Tokuyama s Retrosynthetic Analysis and Strategy.</p>
<p>25.3 Fukuyama and Tokuyama s Total Synthetis.</p>
<p>25.4 Nicolaou and Chen s Retrosynthetic Analysis and Strategy.</p>
<p>25.5 Nicolaou and Chen s Total Synthesis.</p>
<p>25.6 Conclusion.</p>
<p>Chapter 26. Palau amine (P. S. Baran) (2010).</p>
<p>26.1 Introduction.</p>
<p>26.2 Retrosynthetic Analysis and Strategy.</p>
<p>26.3 Total Synthesis.</p>
<p>26.4 Conclusion.</p>
<p>Image / Photo Credits.</p>
<p>Author Index.</p>
<p>Subject Index.</p>
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