Polycyclic amides

On the other hand, the specific electron configuration of the nitrogen allows a chemistry comparable to that of the ubiquitous cyclopentadienyl ligand and this offers an opportunity to get within distance of the all-powerful lanthanide alkoxide chemistry. The introduction of unsaturated monoanionic ligands like substituted pyrrols is currently in progress. In the last ten years there has also been a steadily growing interest in polycyclic amides, e.g., porphyrins and phthalocyanines. 

Taxine alkaloids are complex polycyclic compounds in which N is present but not as an integral part of a ring. The taxines are found in Taxus (yew) species (Taxaceae). Taxine A (C61 CIO ] C6-0-C0-CH(0H)-CH(N(CH3)2)-Phe) is substantially responsible for yew toxicity. The related polycyclic amide taxol (paclitaxel) and the closely related docetaxel are tubulin-binding, antimitotic cytotoxics that are used clinically as anticancer drugs. A variety of taxines have been isolated from Taxus species. 

Several examples have recently appeared which demonstrate the utility of the intramolecular Diels-Alder reaction for the construction of heterocyclic systems. Oppolzer has established that thermally generated quinodimethanes will undergo intramolecular Diels-Alder reactions to produce polycyclic amides (e.g., 26 ). The required amides of the type 26 are readily obtainable from benzocyclobutanecarbo Qrlic acid. This method has been applied to the total synthesis of the alkaloid dl-chelido nine. 

Aromatic amides like 1 (both benzamides and naphthamides) can be dearomatized to yield bi- and polycyclic amides 2 in a stereoselective cyclization reaction triggered by a benzylic lithiation a to the amide nitrogen to form organolithium intermediate 3. The proposed mechanism of the reaction consists of the intramolecular conjugate addition of the benzylic anionic center in 3 into the electron-deficient ortho position of the aromatic ring (Scheme 28.1). In most cases, the addition of l,3-dimethyltetrahydro-2(l//)-pyrimidinone (DMPU) to the reaction medium is required to promote the cyclization step. Considering the proposed mechanism, the high stereoselectivity observed in the cyclization is truly remarkable. 

Primary and secondary amines also react with epoxides (or in situ produced episulfides )r aziridines)to /J-hydroxyamines (or /J-mercaptoamines or 1,2-diamines). The Michael type iddition of amines to activated C—C double bonds is also a useful synthetic reaction. Rnally unines react readily with. carbonyl compounds to form imines and enamines and with carbo-tylic acid chlorides or esters to give amides which can be reduced to amines with LiAlH (p. Ilf.). All these reactions are often applied in synthesis to produce polycyclic alkaloids with itrogen bridgeheads (J.W. Huffman, 1967) G. Stork, 1963 S.S. Klioze, 1975). 

Polycyclic derivatives have been prepared by straightforward amide formation. The tetracyclic amide 166 was obtained by reductive cyclization of 3-o-nitrophenylindole-2-carboxylic acid (165).22 When l-(2 -ethoxycarbonylskatyl)isoquinoline (167) was heated the pentacyclic j8-carboline derivative 168 was formed. If,... 

An interesting family of polycyclic pyrroles was described in 2005 using again the synthetic sequence of a Stetter reaction for the preparation of the starting 1,4 diketones followed by a microwave-assisted Paal-Knorr condensation [35]. For example, cyclopentenone 23 (obtained in a Pauson-Khand cyclization) reacted imder Stetter reaction conditions to give the amino ketone 25 (Scheme 8). The microwave-assisted Paal-Knorr cyclization of 25 with different amines gave a small collection of tricychc pyrrole 2-carbox-amides. 

Such reactions are also possible in vitro, as several mild oxidizing agents are at hand nowadays. Thus, the Dess-Martin periodinane (DMP) [50] has been proven to be a versatile and powerful reagent for the mild oxidation of alcohols to the corresponding carbonyl compounds. In this way, a series of new iodine(V)-mediated reactions has been developed which go far beyond simple alcohol oxidation [51], Ni-colaou and coworkers have developed an effective DM P-mediated domino polycy-clization reaction for converting simple aryl amides, urethanes and ureas to complex phenoxazine-containing polycycles. For example, reaction of the o-hydroxy anilide 7-101 with DMP (2 equiv.) in refluxing benzene under exposure to air led to polycycle 7-103 via 7-102 in a yield of 35 % (Scheme 7.28) [52]. 

Procedures for the preparation of several compounds of considerable utility are described. These include 1,1 -carbonyl-diimidazole, which has been used in the preparation of esters, amides, and anhydrides, the hydrochloride and methiodide of l-ethyl-3-(3-dimethylamino)-propylcarbodiimide, which can be used for similar purposes and are especially useful in the preparation of peptides, and (+)- and (— )-< -(2,4,5,7-tetranitro-9-fluorenylideneaminooxy) propionic acid (TAPA), which is used for the resolution of polycyclic aromatic compounds. 

Removal of the amide function is much easier if the reaction is intramolecular, and —CONEt2 amides (sometimes even —CONPr-i2 amides) may be converted to lactones, lactams and other heterocycles in this way . Addition of an aldehyde or ketone as an electrophile generates a hydroxyl group (in some cases, atroposelectively, as it happens —though this is usually irrelevant to the stereochemistry of the product) which cyclizes to give a lactone via a benzylic cation in acid. This reaction has found wide use in the synthesis of polycyclic aromatics, particularly alkaloids. 

To summarize the amides are most suitable for the formation, by ortholithiation, of condensed heterocycles and polycyclic aromatics (in which subsequent rings are formed by intramolecular attack on the amide group). In other cases the removal of the amide group may be problematic, though if carboxylic acids, aldehydes or hydroxymethyl-substituted compounds are required, alternative amide substituents may be used. 

Amides of aminopyridines have also been widely used to direct lithiation, and are most effective when lithiated with BuLi in the absence of TMEDA (Scheme 38) . The lithiation of 80 can be used as a key step in the synthesis of naphthyridines and other condensed polycyclic heterocycles" . 

CONTENTS List of Contributors. Introduction to the Series An Editor s Forward, Albert Padwa. Preface, Randolph P. Thummel. Cyclooctatetraenes Conformational and ii-Elec-tronic Dynamics Within Polyolefinic [8] Annulene Frameworks, Leo A. Paquette. A Compilation and Analysis of Structural Data of Distorted Bridgehead Olefins and Amides, Timothy G. Lease and Kenneth J. Shea. Nonplanarity and Aromaticity in Polycyclic Benzenoid Hydrocarbons, William C. Herndon and Paul C. Nowak. The Dewar Furan Story, Ronald N. Warrener. Author Index. Subject Index. 

The UV spectrum (7max 210, 231, 280, and 470 nm) of granulatimide (374), indicated the presence of a polycyclic aromatic framework. The IR spectrum indicated the presence of NH and amide carbonyl groups at v ax 3246 and 1698 cm , respectively. Comparison of the HRFABMS of didemnimide A (373) with that of granulatimide (374) indicated a difference of two hydrogen atoms. The H-NMR... 

The first dataset consisted of 91 rigid compounds (mono- and di-substituted benzenes, polycyclic aromatic hydrocarbons, cyclic amides, and pyrazole and imidazole derivatives) selected from the WDI on the basis of a count of the number of rotatable bonds computed using TSAR none of the 91 structures had rotatable bonds. The structures are listed in Table 1 together with their experimental log Poct values, which cover a range from -2.17 to +6.5 the values were retrieved from the SRC web site (27). 

Schreiber and co-workers (436) prepared a library calculated to contain 2.18 million polycyclic compounds through the 1,3-dipolar cycloaddition of a number of nitrones with alkenes supported on TentaGel S NH2 resin (Scheme 1.83). (—)-Shikimic acid was converted into the polymer bound epoxycyclohexenol carboxylic acid 376 (or its enantiomer), coupled to the resin via a photolabile linker developed by Geysen and co-workers (437) to allow release of the products from the resin in the presence of live cells by ultraviolet (UV)-irradiation. A range of iodoaromatic nitrones (377) was then reacted with the ot,p-unsaturation of the polymer-bound amide in the presence of an organotin catalyst, using the tandem esterification/ dipolar cycloaddition methodology developed by Tamura et al. (84,85) Simultaneous cyclization by PyBrop-mediated condensation of the acid with the alcohol... 

Castle and co-workers <1996JHC119, 1996JHC185, 1997JHC1597, 1998JHC1441> used 3-chlorothieno [2,3-3]thiophene-2-carbonyl chloride 280 in the synthesis of the appropriate amides, which by oxidative photo-cyclization gave novel polycyclic heterocyclic ring systems thieno[3, 2 4,5]thieno[2,3-f][l,10]phenanthroline 281, thieno[3, 2 4,5]thieno[2,3-f]naphtho[2,iy ]quinoline 282 and thieno[3, 2 4,5]thieno[2,3-f]naphtho[l,2-g]qui-noline 283, thieno[3, 2 4,5]thieno[2,3-f]naphtho[l,2y ]quinoline 284, thieno[3, 2 4,5]thieno[2,3-f]naphtho[l,2 7]-[l,2,4]triazolo[3,4- ]quinoline 286, thieno[3, 2 4,5]thieno[2,3-f]naphtho[l,2-/]tetrazolo[l,5- ]quinoline 288, benzo[ ]thieno[3, 2 4,5]thieno[2,3-f]quinoline 285, benzo /]thieno[3, 2 4,5]thieno[2,3-f]quinoline 287, benzol/] thieno[3, 2 4,5]thieno[2,3-f]tetrazolo[l,5- ]quinoline 289, and benzo[/jthieno[3, 2 4,5]thieno[2.3-f][l,2,4]triazolo[4,3- ]-quinoline 290. 

Nitrosation of, 401 Ortho acids, 41-42 Ortho amides, 42 Orthocarbonates, 42 Ortho esters, 41-68 halogenation of acyl groups, 58-60 monocyclic, 51-53 polycyclic, 51... 

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