Olefins 3+2 cycloaddition reactions

Several elegant synthetic strategies have been devised for biotin (1) this chapter describes one of the total syntheses developed at Hoffmann-La Roche. This insightful synthesis employs a derivative of L-cysteine, a readily available member of the chiral pool,2 as the starting material, and showcases the powerful intramolecular nitrone-olefin [3+2] cycloaddition reaction. 

The total synthesis of biotin (1) described in this chapter provides an impressive example of the intramolecular nitrone-olefin [3+2] cycloaddition reaction. Aiming for a practical process, the Hoff-mann-La Roche group utilized relatively simple and inexpensive starting materials, and ingeniously controlled the crucial [3+2] cycloaddition reaction to give only one stereoisomer by confining the cycloaddition precursor to a ten-membered ring. 

Intramolecular cyclizations of silyl nitronates were also used in the preparation of aminosugars. In 2003 Kudoh et al. reported the stereoselective conversion of 2-nitroalkanols by silyl nitronate generation followed by an intramolecular nitronate-olefin [3 + 2] cycloaddition reaction (Scheme 51).88... 

The ability of the intramolecular nitrile oxide-olefin [3 + 2] cycloaddition reaction to furnish isoxazolines suitable for further elaboration is illustrated in Scheme 34 utilizing (Ry mandelic acid (2). Chiral oxime 142, prepared in four steps from 2, is oxidized to a nitrile... 

Asymmetric bias generated by protected vicinal diol controller and its application to asymmetric nitrone-olefin cycloaddition reactions 98YGK86. 

The elegant, enantiospecific synthesis of biotin (1) by Hoffmann-La Roche1 is based on a strategy that takes advantage of the powerful intramolecular nitrone-olefin cycloaddition reaction. Our analysis begins with model studies in which the straightforward conversion of L-cysteine (2) into aldehyde 3 (see Scheme 1) constitutes... 

The [3 +2] Nitrone-Olefin Cycloaddition Reaction Pal N. Confalone, Edward M. Hula... 

The complex Cp2Ti(OTf)2 induces [3 + 2]-nitrone-olefin cycloaddition reactions by a concerted process. The reaction proceeds via the intermediate [Cp2Ti(nitrone)2]2+. The crystal structure of one of these adducts is reported. Asymmetric induction has been observed when the chiral [Pg.592]

The chiral catalyzes asymmetric [3 + 2]-nitrone-olefin cycloaddition reactions.1559... 

Ciufolini and co-workers demonstrated the use of 1,3-dipolar azide-olefin cycloaddition reactions in the total synthesis of ( )-FR66979 (52) [25], an antitiunor agent which is structurally related to the mitomycins [26]. Thus, the triazoline 50 was obtained as a single diastereomer by smooth cycloaddition of the activated double bond and the dipole in 49 by heating in toluene. Brief photolysis of 50 provided aziridine 51, which fragmented to 52 (Scheme 8B). Other intramolecular azide-alkene cycloaddition in natural product synthesis is illustrated by a munber of examples [27-32]. 

The arene-olefin cycloaddition reaction has now been applied to... 

Wiesner carried out pioneering studies on the photocycloaddtion of vinylogous imides in the 1960s, and he first applied the intramolecular photochemical [2 + 2] enone-olefin cycloaddition reaction in natural product synthesis. In his landmark synthesis of 12-e/>i-lycopodine, compound 186 is irradiated to give a 70% yield of photoadduct 187. Protection of the ketone, epoxidation of the exocyclic double bond, and reduction of the epoxide give ketal alcohol 188. Deprotection of the ketal and spontaneous refro-aldol fragmentation lead to the diketone 190. Of note is that the bond cleaved in this retro-a do pathway (i.e., 189 to 190) is different from that of typical de Mayo reactions. Diketone 190 transforms to the tetracyclic alcohol 191 via aldol reaction, and this alcohol is converted to 12-e/7/-lycopodine in four steps. 

The regiospecificity of the olefin cycloaddition reaction depends on the substituent groups present on the double bond. Thus, acrylonitrile and methyl acrylate react with various nitrile ylides to give only the 4-substituted regio-isomers (i.e., 16). Photocycloaddition of arylazirines to a-methylacrylo-nitrile and methyl methacrylate, on the other hand, give adducts of type 33 and 34 in a 3 2 ratio. ... 

Simple olefins do not usually add well to ketenes except to ketoketenes and halogenated ketenes. Mild Lewis acids as well as bases often increase the rate of the cyclo addition. The cycloaddition of ketenes to acetylenes yields cyclobutenones. The cycloaddition of ketenes to aldehydes and ketones yields oxetanones. The reaction can also be base-cataly2ed if the reactant contains electron-poor carbonyl bonds. Optically active bases lead to chiral lactones (41—43). The dimerization of the ketene itself is the main competing reaction. This process precludes the parent compound ketene from many [2 + 2] cyclo additions. Intramolecular cycloaddition reactions of ketenes are known and have been reviewed (7). 

Characteristic reactions of singlet oxygen lead to 1,2-dioxetane (addition to olefins), hydroperoxides (reaction with aHyhc hydrogen atom), and endoperoxides (Diels-Alder "4 -H 2" cycloaddition). Many specific examples of these spectrally sensitized reactions are found iu reviews (45—48), earlier texts (15), and elsewhere iu the Engchpedia. 

Al-Heterocycles, formation from olefins and acetylenes in a metallocomplex-catalyzed cycloaddition reaction and further transformations 98IZV816. 

The cycloaddition reaction of diazomethane 4 and an olefin, e.g. methyl acrylate 5, leads to a dihydropyrazole derivative 6 ... 

As formal a, /i-unsaturated sulfones and sulfoxides, respectively, both thiirene dioxides (19) and thiirene oxides (18) should be capable, in principle, of undergoing cycloaddition reactions with either electron-rich olefins or serving as electrophilic dipolarophiles in 2 + 3 cycloadditions. The ultimate products in such cycloadditions are expected to be a consequence of rearrangements of the initially formed cycloadducts, and/or loss of sulfur dioxide (or sulfur monoxide) following the cycloaddition step, depending on the particular reaction conditions. The relative ease of the cycloaddition should provide some indication concerning the extent of the aromaticity in these systems2. 

Catalytic cyclopropanation of alkenes has been reported by the use of diazoalkanes and electron-rich olefins in the presence of catalytic amounts of pentacarbonyl(rj2-ris-cyclooctene)chromium [23a,b] (Scheme 6) and by treatment of conjugated ene-yne ketone derivatives with different alkyl- and donor-substituted alkenes in the presence of a catalytic amount of pentacarbon-ylchromium tetrahydrofuran complex [23c]. These [2S+1C] cycloaddition reactions catalysed by a Cr(0) complex proceed at room temperature and involve the formation of a non-heteroatom-stabilised carbene complex as intermediate. 

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