Applications natural product synthesis

Oxirane opening by functionalized ethenylaluminum (81JA1851) and ethenylcopper (79JCS(Pl)2954) reagents has found applications in natural products synthesis. 

The Boekelheide reaction has found utility in a number of synthetic applications. A notable example of its application to natural product synthesis was described by... 

The final chapter in this volume by R. Kumar and R. Chandra (University of Delhi, India) deals with stereocontrolled additions to di- and tetrahydropyridines and particularly their application to natural product synthesis. 

Novel indole synthesis and its application to natural product synthesis 98JHC1043. 

Chemoselective reduction of a,(3-epoxy carbonyl compounds to aldols and their analogs by organoseleniums and its application to natural product synthesis 98YGK736. 

The Neber rearrangement has for example found application in natural product synthesis. 

The intramolecular Sakurai reaction allows for the synthesis of functionalized bicyclic systems. By proper choice of the reaction conditions, especially of the Lewis acid or fluoride reagent used, high stereoselectivity can be achieved, which is an important aspect for its applicability in natural products synthesis. 

The Sharpless epoxidation is one of the most important of the newer organic reactions. Although limited to allylic alcohols, it has found wide application in natural product synthesis. 

A highlight in the application of RCM methodology in natural product synthesis is Hirama s total synthesis of ciguatoxin CTX3C (183) [90], including the more recent improved protective group strategy, as depicted in Scheme 34 [90b]. The structure of 183 spans more than 3 nm and is characterized by 12 six- to nine-membered trans-fused cyclic ethers and a spiroannulated terminal tetra-... 

For overviews of applications of the Heck reaction in natural products synthesis, see (a) Link, J. T. Overman, L. E. In Metal-Catalyzed Cross-Coupling Reactions, Diederich, F., Stang, P. J., Eds. Wiley-VCH New York, 1998 Chapter 6. (b) Brase, S. de Meijere, A. In Metal-Catalyzed Cross-Coupling Reactions Diederich, F., Stang, P. J., Eds. Wiley New York, 1998 Chapter 3.6. (c) Nicolaou, K. C. Sorensen, E. J. Classics in Total Synthesis VCH New York, 1996 Chapter 31. These authors refer to the Heck reaction as "one of the true "power tools" of contemporary organic synthesis" (p. 566). 

Tietze L. F. Domino-Reactions the Tandem-Knoevenagel-Hetero-Diels-Alder Reaction and Its Application in Natural Product Synthesis J. Heterocycl. Chem. 1990 27 47-69... 

Like many other antibodies, the activity of antibody 14D9 is sufficient for preparative application, yet it remains modest when compared to that of enzymes. The protein is relatively difficult to produce, although a recombinant format as a fusion vdth the NusA protein was found to provide the antibody in soluble form with good activity [20]. It should be mentioned that aldolase catalytic antibodies operating by an enamine mechanism, obtained by the principle of reactive immunization mentioned above [15], represent another example of enantioselective antibodies, which have proven to be preparatively useful in organic synthesis [21]. One such aldolase antibody, antibody 38C2, is commercially available and provides a useful alternative to natural aldolases to prepare a variety of enantiomerically pure aldol products, which are otherwise difficult to prepare, allovdng applications in natural product synthesis [22]. 

Tohma H, Kita Y (2003) Synthetic Applications (Total Synthesis and Natural Product Synthesis). 224 209-248... 

Thiem J,see Werschkun B (2001) 2/5 293-325 Thutewohl M,see Waldmann H (2000) 2ii 117-130 Tichkowsky I, see IdeeJ-M (2002) 222 151-171 Tiecco M (2000) Electrophilic Selenium, Selenocychzations. 208 7-54 Tohma H, Kita Y (2003) Synthetic Applications (Total Synthesis and Natural Product Synthesis). 224 209-248... 

Most often, the application of cyanohydrin acetonide couplings to a natural product synthesis calls for coupling with a primary alkyl halide. This has proven successful in every instance. However, on occasion, alkylations of more hindered epoxides or hindered alkyl halides are desirable. These reactions are less dependable. 

Bellemin-Laponnaz S, Twedel J, Ruble JC, Breitling FM, Fu GC (2000) The kinetic resolution of allylic alcohols by a non-enzymatic acylation catalyst application to natural product synthesis. Chem Conunun 1009-1010... 

Sakaki S (2005) Theoretical Studies of C-H s-Bond Activation and Related by Transition-Metal Complexes. 12 31-78 Satoh T, see Miura M (2005) 14 1-20 Satoh T, see Miura M (2005) 14 55-84 Savoia D (2005) Progress in the Asymmetric Synthesis of 1,2-Diamines from Azomethine Compounds. 15 1-58 Schmalz HG, Gotov B, Bbttcher A (2004) Natural Product Synthesis. 7 157-180 Schmidt B, Hermanns J (2004) Olefin Metathesis Directed to Organic Synthesis Principles and Applications. 13 223-267... 

The Sonogashira reaction is a transition metal-catalyzed coupling reaction which is widely used for the preparation of alkyl-, aryl- and diaryl-substituted acetylenes (Table 4.7) [120]. This reaction is a key step in natural product synthesis and is also applied in optical and electronic applications. Sonogashira reactions involve the use of an organic solvent with a stoichiometric portion of a base for capturing the... 

Domino Michael/aldol addition processes unquestionably represent the largest group of domino transformations. Numerous synthetic applications - for example, in natural product synthesis as well as for the preparation of other bioactive compounds - have been reported. Thus, the procedure is rather flexible and allows the use of many different substrates [12]. In this process it is possible, in theory, to establish up to two new C-C-bonds and three new stereogenic centers in a single step. For example, Collin s group developed a three-component approach. 

Officially, the history of MCRs dates back to the year 1850, with the introduction of the Strecker reaction (S-3CR) describing the formation of a-aminocyanides from ammonia, carbonyl compounds, and hydrogen cyanide [4]. In 1882, the reaction progressed to the Hantzsch synthesis (H-4CR) of 1,4-dihydropyridines by the reaction of amines, aldehydes, and 1,3-dicarbonyl compounds [5], Some 25 years later, in 1917, Robinson achieved the total synthesis of the alkaloid tropinone by using a three-component strategy based on Mannich-type reactions (M-3CR) [6]. In fact, this was the earliest application of MCRs in natural product synthesis [7]. 

A straightforward application of an Ugi reaction in natural product synthesis has been elucidated by Bauer and Armstrong [53]. These authors prepared the intermediate 9-68 in the synthesis of the complex protein phosphatase inhibitor motuporin (9-69), by using an U-4CR process starting from the acid 9-64, the aldehyde 9-65, methylamine, and the isocyanide 9-66 via 9-67. 

Nitroalkenes prepared from aromatic aldehydes are especially useful for natural product synthesis. For example, the products are directly converted into ketones via the Nef reaction (Section 6.1) or indoles (Section 10.2) via the reduction to phenylethylamines (Section 6.3.2). The application of these transformations are discussed later here, some examples are presented to emphasize their utility. Schemes 3.3 and 3.4 present a synthesis of 5,6-dihydroxyindole66 and asperidophytine indole alkaloid,67 respectively. 

We commenced our own approach toward ( )-phomactin A with an intent to feature an oxa-[3 + 3] annulation strategy [24—28] that was developed in our lab [29-32] and, in particular, an intramolecular annulation. While oxa-[3 + 3] annulations or related reaction manifolds [33, 34] are known and can be traced back more than six decades [35], an intramolecular variants of this reaction were not known [24—28]. There were no applications of intramolecular oxa-[3 + 3] annulations in natural product synthesis [27, 28, 36] until our approach toward phomactin A was disclosed. Subsequently, an account toward ( )-likonide B was reported by Trauner [36e],... 

APPLICATION OF THE TELOMERIZATION OF BUTADIENE TO NATURAL PRODUCT SYNTHESIS... 

Currently, these reactions are typically conducted with Rh(l) or Ir catalysts. The Pauson-Khand-type reaction of allenynes has also witnessed important developments, especially in its applications to natural products synthesis.388 Brummond s group has been very productive in both areas. Duality in the reaction of allenynes is shown below. In the context of diversity-oriented synthesis, simply changing the reaction conditions gives versatile heterocycles in high yields (Scheme 116).389... 

In conclusion, the ene reaction has undergone a synthetic renaissance with the advent of Lewis acid and transition metal-catalyzed protocols. The carbonyl-ene, imino-ene, and Alder-ene reactions have all experienced tremendous growth due to the mild conditions in which these reactions can be performed, the high functional group compatibility and high stereoselectivity. As a confirmation of the synthetic utility of the ene reaction, there are many applications to natural product synthesis, and some of these are highlighted in Section 10.12.6. Finally, it should be mentioned that these catalyzed ene reactions are still in their infancy, so much remains to be learned. 

The facile conversion of carbonyl groups into lactones via cyclobutanones offers many opportunities for synthetic applications considering the importance of butanol-ides in natural products synthesis. The iridoids vividly illustrate this potential. Allamandin (163) 135 c) and its dehydrated relative plumericin (164) 135 d), compounds possessing antifungal, antibacterial, and antitumor activity, pack a great deal of... 

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