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Volume 33, Issue 1

Issues

The total synthesis of vitamin B12

R. B. Woodward
Published Online: 2009-01-01 | DOI: https://doi.org/10.1351/pac197333010145

References

  • 1

    2013, 8, 78, S. 4115KurcońSylwester, ProinsiasKeith ó, GrykoDorota, The Journal of Organic Chemistry, J. Org. Chem., 0022-3263, Cobryketone Derived from Vitamin B12via Palladium-Catalyzed Cleavage of the sp3–sp3 Carbon–Carbon BondCrossref

  • 2

    2012, 8, 26, S. 1009BentonChristopher M., LimChang Kee, Biomedical Chromatography, Biomed. Chromatogr., 02693879, Liquid chromatography and mass spectrometry of haem biosynthetic intermediates: a reviewCrossref

  • 3

    2012, 5, 2012, S. 865RamacharyDhevalapally B., ReddyY. Vijayendar, European Journal of Organic Chemistry, Eur J Org, 10990690, Dienamine Catalysis: An Emerging Technology in Organic SynthesisCrossref

  • 4

    2012, 18, 77, S. 7823HansenSteen U., MillerGavin J., BaráthMarek, BrobergKarl R., AvizienyteEgle, HelliwellMadeleine, RafteryJames, JaysonGordon C., GardinerJohn M., The Journal of Organic Chemistry, J. Org. Chem., 0022-3263, Synthesis and Scalable Conversion of l-Iduronamides to Heparin-Related Di- and TetrasaccharidesCrossref

  • 5

    2012, 3, 40, S. 581MooreSimon J., WarrenMartin J., Biochemical Society Transactions, Biochem. Soc. Trans., 0300-5127, The anaerobic biosynthesis of vitamin B12Crossref

  • 6

    2012, 3, 61, S. 265SouganidisEllie, Annals of Nutrition and Metabolism, Ann Nutr Metab, 1421-9697, Nobel Laureates in the History of the VitaminsCrossref

  • 7

    2011, 52, 123, S. 12618EschenmoserAlbert, Angewandte Chemie, angew chemie, 15213757, Ätiologie potentiell primordialer Biomolekül-Strukturen: Vom Vitamin B12 zu den Nukleinsäuren und der Frage nach der Chemie der Entstehung des Lebens - ein RückblickCrossref

  • 8

    2011, 52, 50, S. 12412EschenmoserAlbert, Angewandte Chemie International Edition, Angew Chem Int E, 15213773, Etiology of Potentially Primordial Biomolecular Structures: From Vitamin B12 to the Nucleic Acids and an Inquiry into the Chemistry of Life’s Origin: A RetrospectiveCrossref

  • 9

    2011, 3-4, 71, S. 251VicensJacques, VicensQuentin, Journal of Inclusion Phenomena and Macrocyclic Chemistry, J Incl Phenom Macrocyc Chem, 15731111, Emergences of supramolecular chemistry: from supramolecular chemistry to supramolecular scienceCrossref

  • 10

    2010, 1, 88, S. 41MeraPaola E., Escalante-SemerenaJorge C., Applied Microbiology and Biotechnology, Appl Microbiol Biotechnol, 14320614, Multiple roles of ATP:cob(I)alamin adenosyltransferases in the conversion of B12 to coenzyme B12Crossref

  • 11

    2010, 1, 3, S. 24BiedendieckRebekka, MaltenMarco, BargHeiko, BunkBoyke, MartensJan-Henning, DeeryEvelyne, LeechHelen, WarrenMartin J., JahnDieter, Microbial Biotechnology, Microbial Biotech, 17517915, Metabolic engineering of cobalamin (vitamin B12) production in Bacillus megateriumCrossref

  • 12

    2009, 1-2, 65, S. 221VicensJacques, VicensQuentin, Journal of Inclusion Phenomena and Macrocyclic Chemistry, J Incl Phenom Macrocycl Chem, 15731111, Origins and emergences of supramolecular chemistryCrossref

  • 13

    2009, 8, 5, S. 526KazlauskasRomas J, BornscheuerUwe T, Nature Chemical Biology, Nat Chem Biol, 15524469, Finding better protein engineering strategiesCrossref

  • 14

    2009, 8, 5, S. 530McDonaldEdward, Nature Chemical Biology, Nat Chem Biol, 15524469, Vitamins and cofactors: highlights of ESBOC 2009Crossref

  • 15

    2009, 2, 77, S. 873MulzerJohann, InnitzerAnna, HETEROCYCLES, HETEROCYCLES, 0385-5414, A Tetracarbonyl Paal-Knorr Approach to SemicorrinsCrossref

  • 16

    2008, 1, 64, S. 9ChandraTilak, BrownKenneth L., Tetrahedron, Tetrahedron, 00404020, Vitamin B12 and α-ribonucleosidesCrossref

  • 17

    2006, 9, 95, S. 744LewisNorman J., NussbergerRolf, KräutlerBernhard, EschenmoserAlbert, Angewandte Chemie, Angew Chem, 15213757, 5,15-Bisnorcobester: eine unvorhergesehene BildungsweiseCrossref

  • 18

    2006, 9, 95, S. 746NussbaumerCornelius, ArigoniDuilio, Angewandte Chemie, Angew Chem, 15213757, Einfacher Zugang zu 5-Nor-, 15-Nor- und 5,15-BisnorcobesterCrossref

  • 19

    2006, 1, 600, S. 43SzőcsE., DurrerL., LuginbühlR., SimicN., VianaA.S., AbrantesL.M., KeeseR., SiegenthalerH., Surface Science, Surf Sei, 00396028, STM investigations of Au(111) electrodes coated with vitamin B12 derivativesCrossref

  • 20

    2005, 6, 117, S. 876KaufmanTeodoro S., RúvedaEdmundo A., Angewandte Chemie, Angew Chem, 15213757, Die Jagd auf Chinin: Etappenerfolge und GesamtsiegeCrossref

  • 21

    2005, 6, 44, S. 854KaufmanTeodoro S., RúvedaEdmundo A., Angewandte Chemie International Edition, Angew Chem Int Ed, 15213773, The Quest for Quinine: Those Who Won the Battles and Those Who Won the WarCrossref

  • 22

    2004, 3, 98, S. 167PiaoYongzhe, YamashitaMitsuo, KawaraichiNami, AsegawaRyo, OnoHisayo, MurookaYoshikatsu, Journal of Bioscience and Bioengineering, J Biosci Bioengin, 13474421, Production of vitamin B12 in genetically engineered Propionibacterium freudenreichiiCrossref

  • 23

    2004, 3, 98, S. 167PIAOYONGZHE, YAMASHITAMITSUO, KAWARAICHINAMI, ASEGAWARYO, ONOHISAYO, MUROOKAYOSHIKATSU, Journal of Bioscience and Bioengineering, J BIOSCI BIOENG, 13474421, Production of Vitamin B12 in Genetically Engineered Propionibacterium freudenreichiiCrossref

  • 24

    2001, 3, 1, S. 212ScottA. Ian, The Chemical Record, Chem Record, 15280691, Reflections on the discovery of nature’s pathways to vitamin B12Crossref

  • 25

    2000, 1, 112, S. 46NicolaouK. C., VourloumisDionisios, WinssingerNicolas, BaranPhil S., Angewandte Chemie, Angew Chem, 15213757, Der Stand der Totalsynthese zu Beginn des 21. JahrhundertsCrossref

  • 26

    2000, 8, 112, S. 1432CorriuRobert J. P., Angewandte Chemie, Angew Chem, 15213757, Keramiken und nanostrukturierte Materialien aus molekularen VorstufenCrossref

  • 27

    2000, 1-3, 169, S. 47ArigaKatsuhiko, TanakaKeizo, KatagiriKiyofumi, KikuchiJun-ichi, OhshimaEiji, HisaedaYoshio, Colloids and Surfaces A Physicochemical and Engineering Aspects, Colloid Surf A Phys Eng Aspects, 09277757, Syntheses and monolayer properties of vitamin B12 derivatives with seven alkyl chainsCrossref

  • 28

    2000, 20, 2, S. 3139MulzerJohann, RietherDoris, Organic Letters, Org Lett, 15237052, Efficient Synthesis of the D-Ring Fragment of Cobyric AcidCrossref

  • 29

    1999, 34, 40, S. 6197MulzerJohann, RietherDoris, Tetrahedron Letters, Tetrahetron Lett, 00404039, Synthesis of the C-ring fragment of cobyric acidCrossref

  • 30

    1997, 47, 53, S. 15911ChapmanRobert G., ShermanJohn C., Tetrahedron, Tetrahedron, 00404020, Templation and encapsulation in supramolecular chemistryCrossref

  • 31

    1997, 26, 38, S. 4535EvansDavid A., CarterPercy H., DinsmoreChristopher J., BarrowJames C., KatzJeffrey L., KungDaniel W., Tetrahedron Letters, Tetrahetron Lett, 00404039, Mild nitrosation and hydrolysis of polyfunctional amidesCrossref

  • 32

    1996, 11, 108, S. 1242PhilpDouglas, StoddartJ. Fraser, Angewandte Chemie, Angew Chem, 15213757, Selbstorganisation in natürlichen und in nichtnatürlichen SystemenCrossref

  • 33

    1996, 6, 79, S. 1572BatsJan W., RomanowskiFrank, MaiGerhard, KuschDirk, MontfortsFranz-Peter, Helvetica Chimica Acta, HCA, 15222675, Stereoselektive Synthese des Nitrit-reduzierenden Cofaktors Häm d1 ausgehend von HämatoporphyrinCrossref

  • 34

    1996, 10, 1996, S. 1565EndersDieter, MaaßenRalf, HanSin-Ho, Liebigs Annalen, Liebigs Ann /Recueil, 10990690, New Efficient, Flexible and Regioselective Synthesis of 2,4-Di- and 2,3,4-Trialkylated an Arylated 1H-PyrrolesCrossref

  • 35

    1995, 3, 78, S. 581KräutlerBernhard, CaderasChristian, KonratRobert, PuchbergerMichael, KratkyChristoph, Helvetica Chimica Acta, HCA, 15222675, Lipophilic Functionalized Cobyrinic-Acid Derivatives. Part 1. Cobester α-monoacids (α,α,α,β,β,β-hexamethyl α-hydrogenCoα,Coβ-dicyanocobyrinates)Crossref

  • 36

    1994, 47, 50, S. 13315Ian ScottA., Tetrahedron, Tetrahedron, 00404020, The discovery of nature's pathway to vitamin B12. A 25 year odysseyCrossref

  • 37

    1994, 4, 35, S. 517MurthiKrishna K., SalomonRobert G., Tetrahedron Letters, Tetrahetron Lett, 00404039, A short synthesis of the antimitotic allylic diepoxide functional array of spatolCrossref

  • 38

    1991, 8, 1991, S. 709MontfortsFranz-Peter, SchwartzUlrich Manfred, Liebigs Annalen der Chemie, Liebigs Ann Chem, 10990690, Totalsynthese von (±)-Bonellin-dimethylesterCrossref

  • 39

    1991, 24, 47, S. 3925TsunodaTetsuto, SasakiOsamu, TakeuchiOsamu, ItôShô, Tetrahedron, Tetrahedron, 00404020, An efficient method for hydrolysis of N-monosubstituted amides utilization of intramolecular N-O acyl migration in hydroxypivalimidesCrossref

  • 40

    1990, 5, 31, S. 731TsunodaTetsuto, SasakiOsamu, ItôShô, Tetrahedron Letters, Tetrahetron Lett, 00404039, An efficient method for hydrolysis of N-monosubstituted amides via acetoxypivalimidesCrossref

  • 41

    1988, 1, 100, S. 5EschenmoserAlbert, Angewandte Chemie, Angew Chem, 15213757, Vitamin B12: Experimente zur Frage nach dem Ursprung seiner molekularen StrukturCrossref

  • 42

    1988, 20, 44, S. 6241GuziecFrank S., SanfilippoLynn James, Tetrahedron, Tetrahedron, 00404020, Synthetically useful extrusion reactions of organic sulfur, selenium and tellurium compoundsCrossref

  • 43

    1988, 50, 29, S. 6553EatonJefferson T., RoundsWilliam D., UrbanowiczJohn H., GribbleGordon W., Tetrahedron Letters, Tetrahetron Lett, 00404039, Hydrolysis in the absence of bulk water 1. Chemoselective hydrolysis of amides using tetrahalophthalic anhydridesCrossref

  • 44

    1987, 2, 70, S. 402MontfortsFranz-Peter, BatsJan W., Helvetica Chimica Acta, HCA, 15222675, Synthese eines Nickel(II)-B,C,D-hexadehydrocorrinats durch (A→D)-CyclisierungCrossref

  • 45

    1987, 4, 70, S. 1115KsanderGary, BoldGuido, LattmannRené, LehmannChristian, FrühThomas, XiangYi-Bin, InomataKatsuhiko, BuserHans-Peter, SchreiberJakob, ZassEngelbert, Helvetica Chimica Acta, HCA, 15222675, Chemie der α-Aminonitrile 1. Mitteilung Einleitung und Wege zu Uroporphyrinogen-octanitrilenCrossref

  • 46

    1986, 3, 5, S. 249SchiebelHans Martin, SchultenHans-Rolf, Mass Spectrometry Reviews, Mass Spectrom Rev, 10982787, Soft ionization of biomolecules: A comparison of ten ionization methods for corrins and vitamin B12Crossref

  • 47

    1985, 1, 97, S. 1MasamuneSatoru, ChoyWilliam, PetersenJohn S., SitaLawrence R., Angewandte Chemie, Angew Chem, 15213757, Doppelte Stereodifferenzierung und eine neue Strategie zur Stereokontrolle in der Organischen SyntheseCrossref

  • 48

    1985, 1, 24, S. 1MasamuneSatoru, ChoyWilliam, PetersenJohn S., SitaLawrence R., Angewandte Chemie International Edition in English, Angew Chem Int Ed Engl, 15213773, Double Asymmetric Synthesis and a New Strategy for Stereochemical Control in Organic SynthesisCrossref

  • 49

    1985, 5, 4, S. 269WrightonMark S., Comments on Inorganic Chemistry, Comments Inorg Chem, 15489574, Prospects for a New Kind of Synthesis: Assembly of Molecular Components to Achieve FunctionsCrossref

  • 50

    1984, 4, 18, S. 109WheelerDesmond M. S., Chemie in unserer Zeit, Chem Unserer Zeit, 15213781, R. B. Woodward und die moderne organische ChemieCrossref

  • 51

    1982, 3, 65, S. 828PfaltzAndreas, JaunBernhard, FasslerAlexander, EschenmoserAlbert, JaenchenRolf, GillesHans Harald, DiekertGabriele, ThauerRudolf K., Helvetica Chimica Acta, HCA, 15222675, Zur Kenntnis des Faktors F430 aus methanogenen Bakterien: Struktur des porphinoiden LigandsystemsCrossref

  • 52

    1982, 23, 38, S. 3363HickmottPeter W., Tetrahedron, Tetrahedron, 00404020, Enamines: recent advances in synthetic, spectroscopic, mechanistic, and stereochemical aspects—IICrossref

  • 53

    1982, 10, 12, S. 787BodineJohn J., KaloustianMoses K., Synthetic Communications, Synth Common, 15322432, An Efficient Conversion of N-Alkyllactams to N-AlkylthiolactamsCrossref

  • 54

    1980, 17, 36, S. 2409HaslamEdwin, Tetrahedron, Tetrahedron, 00404020, Recent developments in methods for the esterification and protection of the carboxyl groupCrossref

  • 55

    1979, 12, 1979, S. 1992JürgensUwe, RunteLutz, BrockmannHans, Liebigs Annalen der Chemie, Liebigs Ann Chem, 10990690, Reaktionen von Chlormethyl(methyl)ether mit Chlorin-DerivatenCrossref

  • 56

    1979, 9, 35, S. 1191SchiebelH.M., SchultenH.-R., Tetrahedron, Tetrahedron, 00404020, Field desorption mass spectrometry of natural products—IIICrossref

  • 57

    1979, 37, 20, S. 3525HaradaT., TamaruY., YoshidaZ., Tetrahedron Letters, Tetrahetron Lett, 00404039, Synthesis of ketene S,S-acetals from thioamidesCrossref

  • 58

    1978, 7, 90, S. 503QuinkertGerhard, Angewandte Chemie, Angew Chem, 15213757, Gedanken zu einem Jubiläumsjahr der chemischen SyntheseCrossref

  • 59

    1978, 5, 61, S. 1565FlohrHelmut, PannhorstWolfgang, RéteyJános, Helvetica Chimica Acta, HCA, 15222675, Ein synthetisches Modell für die Aktivstelle der Coenzym-B12-abhängigen Methylmalonyl-CoA-MutaseCrossref

  • 60

    1978, 5, 65, S. 223SchultenH. -R., SchiebelH. M., Naturwissenschaften, Naturwiss, 14321904, Principle and technique of field-desorption mass spectrometryCrossref

  • 61

    1977, 4, 89, S. 253JägerVolker, GüntherHans Jürgen, Angewandte Chemie, Angew Chem, 15213757, Selektive Monofunktionalisierung nicht-konjugierter Diene durch Stickstoffdioxid/Iod-MonoadditionCrossref

  • 62

    1977, 3, 127, S. 337PdungsapLaddawan, WrightonMark S., Journal of Organometallic Chemistry, J Organomet Chem, 0022328X, Photochemistry of cis-tetracarbonylbis(trans-4-styrylpyridine)tungten(0): intraligand photoisomerization from upper excited statesCrossref

  • 63

    1976, 6, 1976, S. 1150GossauerAlbert, HeiseKlaus-Peter, LaasHarald, InhoffenHans Herloff, Justus Liebigs Annalen der Chemie, Justus Liebigs Ann Chem, 10990690, Beiträge zur Kenntnis des chromophoren Systems der Corrine, II1) Über die Chlorierung von Derivaten des Cobyrinsäure-heptamethylestersCrossref

  • 64

    1976, 14, 32, S. 1599StevensRobert V., Tetrahedron, Tetrahedron, 00404020, Studies on the synthesis of corrins and related ligandsCrossref

  • 65

    1975, 1, 58, S. 49ScheffoldRolf, LöligerJürg, BlaserHansueli, GeisserPeter, Helvetica Chimica Acta, HCA, 15222675, Synthese und Reaktionen von Metallkomplexen mit porphinoidem Ligandsystem 1. Mitteilung (3,3,4,4-Tetramethyl-5-imino-1-pyrrolin-2-yl)-(3′,3′,4′,4′-tetramethyl-5′-iminopyrrolidin-2′-yliden)-methan, ein Zwischenprodukt zur Synthese von HexahydroporphinenCrossref

  • 66

    1975, 12, 16, S. 981ParkerKathlyn A., GibbonsE.Grant, Tetrahedron Letters, Tetrahetron Lett, 00404039, A direct synthesis of primary amides from grignard reagentsCrossref

  • 67

    1974, 23, 15, S. 2043BowneArlyce T., LevinRonald H., Tetrahedron Letters, Tetrahetron Lett, 00404039, The reactions of benzyne with α,β-unsaturated carbonyl compoundsCrossref

  • 68

    1973, 21, 85, S. 950GötschiErwin, HunkelerWalter, WildHans-Jakob, SchneiderPeter, FuhrerWaller, GleatsonJohn, EschenmoserAlbert, Angewandte Chemie, Angew Chem, 15213757, Variante des Sulfidkontraktionsverfahrens beim Aufbau corrinoider SystemeCrossref

  • 69

    1973, 21, 85, S. 952GötschiErwin, EschenmoserAlbert, Angewandte Chemie, Angew Chem, 15213757, Bildung eines 1-Hydroxy-corrin-Komplexes durch lichtinduzierte A/D-Secocorrin → Corrin-CycloisomerisierungCrossref

  • 70

    1973, 11, 12, S. 910GötschiErwin, HunkelerWalter, WildHans-Jakob, SchneiderPeter, FuhrerWalter, GleasonJohn, EschenmoserAlbert, Angewandte Chemie International Edition in English, Angew Chem Int Ed Engl, 15213773, A Variation of the Sulfide Contraction Procedure for Synthesis of Corrinoid SystemsCrossref

  • 71

    1973, 11, 12, S. 912GötschiErwin, EschenmoserAlbert, Angewandte Chemie International Edition in English, Angew Chem Int Ed Engl, 15213773, Formation of a 1-Hydroxycorrin complex by PhotochemicalA/D-Secocorrin → Corrin CycloisomerizationCrossref

  • 72

    1973, 8, 56, S. 2950PetrzilkaMartin, FelixDorothee, EschenmoserAlbert, Helvetica Chimica Acta, HCA, 15222675, α-Chlor-nitrone IV: Zur Stereochemie der λ-Lacton-Synthese und eine Methode zum Aufbau von α-Methyliden-λ-lactonen aus Olefinen. Über synthetische Methoden, 8. (vorläufige) MitteilungCrossref

About the article

Published Online: 2009-01-01

Published in Print: 1973-01-01


Citation Information: Pure and Applied Chemistry, Volume 33, Issue 1, Pages 145–178, ISSN (Online) 1365-3075, ISSN (Print) 0033-4545, DOI: https://doi.org/10.1351/pac197333010145.

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[31]
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[38]
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[40]
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[41]
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[45]
Steen U. Hansen, Gavin J. Miller, Marek Baráth, Karl R. Broberg, Egle Avizienyte, Madeleine Helliwell, James Raftery, Gordon C. Jayson, and John M. Gardiner
The Journal of Organic Chemistry, 2012, Volume 77, Number 18, Page 7823
[46]
Simon J. Moore and Martin J. Warren
Biochemical Society Transactions, 2012, Volume 40, Number 3, Page 581
[47]
Tetsuto Tsunoda, Osamu Sasaki, Osamu Takeuchi, and Shô Itô
Tetrahedron, 1991, Volume 47, Number 24, Page 3925
[49]
Frank S. Guziec and Lynn James Sanfilippo
Tetrahedron, 1988, Volume 44, Number 20, Page 6241
[50]
A. Ian Scott
Tetrahedron, 1994, Volume 50, Number 47, Page 13315
[51]
Robert V. Stevens
Tetrahedron, 1976, Volume 32, Number 14, Page 1599
[52]
Robert G. Chapman and John C. Sherman
Tetrahedron, 1997, Volume 53, Number 47, Page 15911
[54]
Tilak Chandra and Kenneth L. Brown
Tetrahedron, 2008, Volume 64, Number 1, Page 9
[55]
H.M. Schiebel and H.-R. Schulten
Tetrahedron, 1979, Volume 35, Number 9, Page 1191
[56]
N. Evans, D.E. Games, A.H. Jackson, and S.A. Matlin
Journal of Chromatography A, 1975, Volume 115, Number 2, Page 325
[57]
Dhevalapally B. Ramachary and Y. Vijayendar Reddy
European Journal of Organic Chemistry, 2012, Volume 2012, Number 5, Page 865
[58]
Abdolraouf Samadi-Maybodi and S.K. Hassani Nejad Darzi
Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2008, Volume 70, Number 5, Page 1167
[61]
Yongzhe Piao, Mitsuo Yamashita, Nami Kawaraichi, Ryo Asegawa, Hisayo Ono, and Yoshikatsu Murooka
Journal of Bioscience and Bioengineering, 2004, Volume 98, Number 3, Page 167
[62]
Jacques Vicens and Quentin Vicens
Journal of Inclusion Phenomena and Macrocyclic Chemistry, 2011, Volume 71, Number 3-4, Page 251
[63]
E. Szőcs, L. Durrer, R. Luginbühl, N. Simic, A.S. Viana, L.M. Abrantes, R. Keese, and H. Siegenthaler
Surface Science, 2006, Volume 600, Number 1, Page 43
[64]
Katsuhiko Ariga, Keizo Tanaka, Kiyofumi Katagiri, Jun-ichi Kikuchi, Eiji Ohshima, and Yoshio Hisaeda
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2000, Volume 169, Number 1-3, Page 47
[65]
Johann Mulzer and Doris Riether
Organic Letters, 2000, Volume 2, Number 20, Page 3139
[66]
Kathlyn A. Parker and E.Grant Gibbons
Tetrahedron Letters, 1975, Volume 16, Number 12, Page 981
[67]
David A. Evans, Percy H. Carter, Christopher J. Dinsmore, James C. Barrow, Jeffrey L. Katz, and Daniel W. Kung
Tetrahedron Letters, 1997, Volume 38, Number 26, Page 4535
[68]
Arlyce T. Bowne and Ronald H. Levin
Tetrahedron Letters, 1974, Volume 15, Number 23, Page 2043
[69]
T. Harada, Y. Tamaru, and Z. Yoshida
Tetrahedron Letters, 1979, Volume 20, Number 37, Page 3525
[70]
Jefferson T. Eaton, William D. Rounds, John H. Urbanowicz, and Gordon W. Gribble
Tetrahedron Letters, 1988, Volume 29, Number 50, Page 6553
[71]
Johann Mulzer and Doris Riether
Tetrahedron Letters, 1999, Volume 40, Number 34, Page 6197
[72]
Krishna K. Murthi and Robert G. Salomon
Tetrahedron Letters, 1994, Volume 35, Number 4, Page 517
[73]
Tetsuto Tsunoda, Osamu Sasaki, and Shô Itô
Tetrahedron Letters, 1990, Volume 31, Number 5, Page 731
[74]
Laddawan Pdungsap and Mark S. Wrighton
Journal of Organometallic Chemistry, 1977, Volume 127, Number 3, Page 337
[75]
John J. Bodine and Moses K. Kaloustian
Synthetic Communications, 1982, Volume 12, Number 10, Page 787
[76]
Mark S. Wrighton
Comments on Inorganic Chemistry, 1985, Volume 4, Number 5, Page 269
[77]
Paola E. Mera and Jorge C. Escalante-Semerena
Applied Microbiology and Biotechnology, 2010, Volume 88, Number 1, Page 41
[78]
Cornelius Nussbaumer and Duilio Arigoni
Angewandte Chemie, 2006, Volume 95, Number 9, Page 746
[79]
Norman J. Lewis, Rolf Nussberger, Bernhard Kräutler, and Albert Eschenmoser
Angewandte Chemie, 2006, Volume 95, Number 9, Page 744
[80]
Rebekka Biedendieck, Marco Malten, Heiko Barg, Boyke Bunk, Jan-Henning Martens, Evelyne Deery, Helen Leech, Martin J. Warren, and Dieter Jahn
Microbial Biotechnology, 2010, Volume 3, Number 1, Page 24
[81]
Jacques Vicens and Quentin Vicens
Journal of Inclusion Phenomena and Macrocyclic Chemistry, 2009, Volume 65, Number 1-2, Page 221
[82]
Edward McDonald
Nature Chemical Biology, 2009, Volume 5, Number 8, Page 530
[83]
Romas J Kazlauskas and Uwe T Bornscheuer
Nature Chemical Biology, 2009, Volume 5, Number 8, Page 526
[84]
Johann Mulzer and Anna Innitzer
HETEROCYCLES, 2009, Volume 77, Number 2, Page 873
[85]
K. C. Nicolaou, Dionisios Vourloumis, Nicolas Winssinger, and Phil S. Baran
Angewandte Chemie, 2000, Volume 112, Number 1, Page 46
[87]
Hans Martin Schiebel and Hans-Rolf Schulten
Mass Spectrometry Reviews, 1986, Volume 5, Number 3, Page 249
[88]
A. Ian Scott
The Chemical Record, 2001, Volume 1, Number 3, Page 212
[89]
Satoru Masamune, William Choy, John S. Petersen, and Lawrence R. Sita
Angewandte Chemie International Edition in English, 1985, Volume 24, Number 1, Page 1
[90]
Erwin Götschi and Albert Eschenmoser
Angewandte Chemie International Edition in English, 1973, Volume 12, Number 11, Page 912
[92]
Teodoro S. Kaufman and Edmundo A. Rúveda
Angewandte Chemie International Edition, 2005, Volume 44, Number 6, Page 854
[93]
Bernhard Kräutler, Christian Caderas, Robert Konrat, Michael Puchberger, and Christoph Kratky
Helvetica Chimica Acta, 1995, Volume 78, Number 3, Page 581
[95]
Franz-Peter Montforts and Jan W. Bats
Helvetica Chimica Acta, 1987, Volume 70, Number 2, Page 402
[96]
H. -R. Schulten and H. M. Schiebel
Naturwissenschaften, 1978, Volume 65, Number 5, Page 223
[97]
Teodoro S. Kaufman and Edmundo A. Rúveda
Angewandte Chemie, 2005, Volume 117, Number 6, Page 876
[98]
Desmond M. S. Wheeler
Chemie in unserer Zeit, 1984, Volume 18, Number 4, Page 109
[99]
Andreas Pfaltz, Bernhard Jaun, Alexander Fassler, Albert Eschenmoser, Rolf Jaenchen, Hans Harald Gilles, Gabriele Diekert, and Rudolf K. Thauer
Helvetica Chimica Acta, 1982, Volume 65, Number 3, Page 828
[100]
Gerhard Quinkert
Angewandte Chemie, 1978, Volume 90, Number 7, Page 503
[101]
Franz-Peter Montforts and Ulrich Manfred Schwartz
Liebigs Annalen der Chemie, 1991, Volume 1991, Number 8, Page 709
[102]
Erwin Götschi, Walter Hunkeler, Hans-Jakob Wild, Peter Schneider, Waller Fuhrer, John Gleatson, and Albert Eschenmoser
Angewandte Chemie, 1973, Volume 85, Number 21, Page 950
[103]
Volker Jäger and Hans Jürgen Günther
Angewandte Chemie, 1977, Volume 89, Number 4, Page 253
[104]
Satoru Masamune, William Choy, John S. Petersen, and Lawrence R. Sita
Angewandte Chemie, 1985, Volume 97, Number 1, Page 1
[105]
Albert Eschenmoser
Angewandte Chemie, 1988, Volume 100, Number 1, Page 5
[106]
Erwin Götschi and Albert Eschenmoser
Angewandte Chemie, 1973, Volume 85, Number 21, Page 952
[107]
Albert Gossauer, Klaus-Peter Heise, Harald Laas, and Hans Herloff Inhoffen
Justus Liebigs Annalen der Chemie, 1976, Volume 1976, Number 6, Page 1150
[108]
Dieter Enders, Ralf Maaßen, and Sin-Ho Han
Liebigs Annalen, 1996, Volume 1996, Number 10, Page 1565
[109]
Uwe Jürgens, Lutz Runte, and Hans Brockmann
Liebigs Annalen der Chemie, 1979, Volume 1979, Number 12, Page 1992
[110]
Douglas Philp and J. Fraser Stoddart
Angewandte Chemie, 1996, Volume 108, Number 11, Page 1242

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