Diels-Alder reactions amides

Key step was a copper-catalyzed domino Buchwald-Hartwig amidation/ Diels-Alder reaction of amide 247 with 2-bromofuran 248 to give 249. In the first... 

Biocatalysts have received great attention in these last few years. Due to their capacity to perform asymmetric transformations under mild conditions [78], they have been useful tools for synthesizing optically active organic molecules. They promote a variety of chemical transformations, including the syntheses of esters and amides and oxidations, reductions, eliminations and carbon carbon forming. Little is known about biocatalyst-promoted Diels Alder reactions. 

To perform Diels-Alder reactions on solid phase, the 2(lH)-pyrazinone scaffold is linked to a suitable support via its amide nitrogen atom. While N-l-substituted pyrazinones are readily accessible by the choice of an appropriate amine, it is not possible to prepare N-l-unsubstituted pyrazinones using the general strategy as previously outlined in the introduction. How-... 

The above-described structures are the main representatives of the family of nitrogen ligands, which cover a wide spectrum of activity and efficiency for catalytic C - C bond formations. To a lesser extent, amines or imines, associated with copper salts, and metalloporphyrins led to good catalysts for cyclo-propanation. Interestingly, sulfinylimine ligands, with the chirality provided solely by the sulfoxide moieties, have been also used as copper-chelates for the asymmetric Diels-Alder reaction. Amide derivatives (or pyridylamides) also proved their efficiency for the Tsuji-Trost reaction. 

Scheme 9.17. Domino amide-formation/hetero-Diels-Alder reaction/Michael-cycloreversion producing pyrrolopyridines 9-86.

Furthermore, oxazoles of type 9-82 bearing a secondary amino functionality can be converted into pyrrolo[3,4-b]pyridines 9-86 by reaction with appropriate acid chlorides 9-83 in a triple domino process consisting of amide formation/hetero Diels-Alder reaction and retro-Michael cycloreversion via 9-84 and 9-85 (Scheme 9.17). The pyrrolo[3,4-fc]pyridines can be obtained in even higher yields when the whole sequence is carried out as a four-component synthesis in toluene. Here, 1.5 equiv. NH4C1 must be added for the formation of the now intermediate oxazoles [56b]. 

The synthesis of (5 5 5) fused heterocycle 62 has been achieved via intramolecular Diels-Alder reaction involving a series of A-alkenyl-substituted furanyl amides 494 (Scheme 112) <2006JOC5432>. 

In 2002, Leadbeater and Torenius reported the base-catalyzed Michael addition of methyl acrylate to imidazole using ionic liquid-doped toluene as a reaction medium (Scheme 6.133 a) [190], A 75% product yield was obtained after 5 min of microwave irradiation at 200 °C employing equimolar amounts of Michael acceptor/donor and triethylamine base. As for the Diels-Alder reaction studied by the same group (see Scheme 6.91), l-(2-propyl)-3-methylimidazolium hexafluorophosphate (pmimPF6) was the ionic liquid utilized (see Table 4.3). Related microwave-promoted Michael additions studied by Jennings and coworkers involving indoles as heterocyclic amines are shown in Schemes 6.133 b [230] and 6.133 c [268], Here, either lithium bis(trimethylsilyl)amide (LiHMDS) or potassium tert-butoxide (KOtBu) was em-... 

The first organoaluminium complex that catalysed a Diels Alder reaction was formed from menthol and ethylaluminium dichloride. This finding was complemented by work of Corey who showed that the aluminium diamine complex (49) was effective for controlling the stereochemistry of Diels-Alder reactions involving cyclopentadiene and acryloyl and crotonyl amides (e.g. 

In the last 5 years, catalytic antibodies have been generated for several reaction types, including the various types of hydrolysis, transesterification, amide bond formation, /3-elimination, cycloreversion, transacylation, redox reactions, E-Z isomerization, epoxidation, and Diels-Alder reactions. For more information on these and other recent developments, such as semi-synthetic antibodies, site-directed mutagenesis, and the bait-and-switch strategy, the reader should consult the appropriate authorities (Schultz, 1988, 1989a,b Benkovic et al., 1990 Janda et al., 1990, 1991 Janjic and Tramontano, 1990 Lerner et al., 1991). 

Gamez-Montaho et al. described an Ugi variation where the carboxylic acid was replaced with an amide [68]. The amide oxygen is nucleophilic enough to effect ring closure to oxazole intermediates 44, which then undergo aza-Diels-Alder reaction with the double bond of the allylic amine component to form oxa-bridged heterocycles 45, which can either be isolated as a separate class of compounds or converted to pyrrolopyridines 46 by treatment with TEA (Scheme 8). 

The authors investigated the salts in the Diels-Alder reaction. In analogy to the NMR experiments similar reactivities were found. As presented in Scheme 44, the salts gave up to 91% yield in high endo-selectivity with cyclopentadiene and an unsaturated amide in 4 h. The highest yield was obtained with salt 45, while for example salt 47 gave only 7% and salt 49 gave only traces. 

The structural diversity (and complexity) of the products obtained by the MCR between tertiary isocyano amides, aldehydes, and amines could be increased to various heterocyclic scaffolds by combining the initial 2,4,5-tiisubstituted oxazole MCR with in situ intramolecular tandem processes (Fig. 17). Most tandem processes reported are based on the reactivity of the oxazole ring toward C=C or C=C bonds in hetero Diels-Alder reactions followed by ring opening reactions generating the rather complex heterocyclic products with high degrees of variation. 

The highly ordered cyclic transition state of the Diels-Alder reaction permits design of reaction parameters which lead to a preference between the transition states leading to diastereomeric or enantiomeric adducts. (See Part A, Section 2.3, to review the principles of diastereoselectivity and enantioselectivity.) One way to achieve this is to install a chiral auxiliary.56 The cycloaddition proceeds to give two diastereomeric products which can be separated and purified. Because of the lower temperature required and the greater stereoselectivity observed in Lewis acid-catalyzed reactions, the best enantioselectivity is often observed in catalyzed reactions. Chiral esters and amides of acrylic acid are particularly useftd because the chiral auxiliary can be easily recovered upon hydrolysis of the adduct to give the enantiomerically pure carboxylic acid. 

A new reusable catalytic system, consisting of a combination of Bi(0Tf)3 xH20 and the novel ionic solid l,3,7-trimethyl-9-ethylxanthinium fc(trifluoromethane-sulfonyl)amide has been reported for the Diels-Alder reaction (Scheme 13) [59]. The hydrophobic nature of the NTf2 counteranion simultaneously prevents the... 

The Corey synthesis began with an asymmetric Diels-Alder reaction between butadiene and 2,2,2-trifluoroethyl acrylate in the presence of the 5-proline-derived catalyst ent-59 to form the adduct ent-69 in excellent yield (97%) and with >97% ee (Scheme 7.10). Ammonolysis of 60 produced amide 61 quantitatively, which underwent iodolacta-mization using the Knapp protocol to generate lactam 62. A-Acylation of 62 with... 

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