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Cycloaddition reactions involving carbohydrates

The effect of high pressure on cycloaddition reactions involving carbohydrates as substrates has been extensively investigated by Jurczak and coworkers (6-S). In their studies of Diels-Alder reactions of pyranoid enones, improvements in stereoselectivity were observed when the reactions were carried out at high pressure (6). [Pg.3]

Carbohydrate Dienophiles. The most popular carbohydrate dienophiles to date have been pyranoid enones. Examples of Diels-Alder reactions involving carbohydrate 2,3-enones, 3,4-enones, and enolone esters are described below. In landmark studies reported by Fraser-Reid and co-workers, carbohydrate-derived 2,3-enones were shown to react with dienes to give cyclohexopyranosides (7- 3), Derivatives of methyl and ethyl 2,3-dideoxy- a D-g/ycero-hex-2-enopyranosid-4-ulose 1 underwent cycloaddition with butadiene in the presence of aluminum chloride, and with oxygen -substituted dienes in the absence of any catalyst. Annulated pyranosides 2 and 3 were obtained... [Pg.2]

Cycloaddition reactions (see Table I) involving unsaturated carbohydrates are regio- and stereo-selective. These selectivities can be understood by assuming that the photochemical interaction between the two 7r-systems results in formation of the more stable 1,4-diradical. The reaction between 3,4,6-tri-O-acetyl-D-glucal (1) and acetone pro-... [Pg.106]

Several other types of photochemical reactions involving unsaturated carbohydrates have been reported. One of these is38 photochemical, E -Z isomerization of the groups attached to a double bond (see Scheme 5). A second is the internal cycloaddition between two double bonds connected by a carbohydrate chain.39-41 Although the carbohydrate portion of the molecule is not directly involved in this cycloaddition, its presence induces optical activity in the cyclobutane derivatives produced photochemically. Finally, a group of acid-catalyzed addition-reactions has been observed for which the catalyst appears to arise from photochemical decomposition of a noncarbohydrate reactant.42-44... [Pg.121]

The [3+2] cycloaddition strategy provides an effective method to access valuable intermediates for the construction of biologically important alkaloids, amino acids, amino carbohydrates and P-lactams [58-62]. The reaction involves the concerted pericyclic addition of a dipole and a dipolarophile and considerable efforts have been made to render these reactions asymmetric nsing Lewis acid catalysis and chiral anxiliaries [63]. [Pg.291]

The cycloaddition reaction of o-thioquinones with acyclic 1,3-dienes is a finely tuned process that can involve either reagent behaving as the diene component. It has now been established that formation of a 2-spiro-linked thiopyran by a [2-1-4] reaction is kinetically controlled and that the [4-1-2] alternative leads to the thermodynamic product, a 1,4-benzoxathiin (Scheme 31). Cyclic dienes yield only the oxathiin <03T5523>. Incorporation of the thionocarbonyl diene unit into fiiran and pyran rings and reaction with carbohydrate glycols leads to tricyclic oxathianes, desulfurisation of which yields 2-deoxydisaccharides <03T4249>. [Pg.425]

The discovery at the beginning of this century of the Cu(I) catalytic and re-gioselective effect in the 1,3-dipolar cycloaddition of azide and alkynes [5,6] has initiated a golden era for this cycloaddition reaction that has found multiple applications in biomedical science, organic synthesis, and material science [7,8]. A vast majority of these results involved the use of carbohydrates. The present review is focused on the recent advances concerning the non-catalytic and catalytic azide-alkyne conjugation in the carbohydrate field. [Pg.135]

Cycloadditions of conjugated dienes to alkenes (dienophiles) provide rapid access to substituted cyclohexenes. In view of the widespread occurrence of carbocyclic compounds in nature, and the recent demands for the synthesis of enantiomerically pure compounds, it is not surprising that carbohydrates were examined as substrates for Diels-Alder reactions. Both carbohydrate-derived dienophiles and dienes have been described in the literature. The products of reactions involving these types of compounds, referred to as annulated sugars, are most often formed stereoselectively. The hi levels of both diastereofacial selectivity and endo/exo selectivity sometimes result in the formation of a single cycloadduct from among several possibilities. [Pg.1]

The most important photochemical reaction of carbon to carbon unsaturated carbohydrates is addition to the unsaturated system. Two types of addition reaction are readily recognized. The first consists of those in which the molecule adding to the carbohydrate does so by involving a 77-bond of its own. Processes of this type, listed in Table I, are those which lead to formation of a new ring-system (cycloaddition). The second class of addition reaction is one in which a cr-bond is broken in the molecule adding to the unsaturated carbohydrate. The reactions that belong to the latter category (see Tables II and III) follow two basic patterns, and comprise the majority of the addition processes reported. [Pg.106]

The advanced state of the art in carbohydrate synthesis basing on hetero Diels-Alder reactions of 1-oxa-l,3-butadienes has opened an access to enan-tiopure sugar derivatives. Thus, our group found the cycloaddition of the chiral heterodiene 7-1 and the electron-rich alkene 7-2 under the influence of Me2AlCl to give the dihydropyran 7-3 in excellent endo selectivity (endo/exo >50 1) and as well excellent induced diastereoselectivity (54 1) [478]. A short sequence involving one simple recrystallisation then led to the ethyl-/)-D-mannopyrano-side 7-4 in enantiomerically pure form (Fig. 7-1). [Pg.84]

Acetyl- and 3-benzoylisoxazoles 389 (and isoxazolines) have been prepared by one-pot reactions of alkynes (and alkenes) with ammonium cerium(iv) nitrate (CAN(lv)) or ammonium cerium(lll) nitrate tetrahydrate (CAN(m))-formic acid, in acetone or acetophenone. These processes probably involve 1,3-dipolar cycloaddition of nitrile oxides produced via nitration of the carbonyl compound by cerium salts. The existence of nitrile oxides as reaction intermediates was proved by the formation of the dimer furoxan 390 when the above reaction was carried out in absence of any dipolarophile (Scheme 95) <2004T1671>. An analogous improved procedure has been applied to alkynyl glycosides as dipolarophiles for the preparation of carbohydrate isoxazoles <2006SL1739>. [Pg.430]

A number of radical cyclizations of carbohydrate-derived intermediates have been reported this year for synthesis of carbocycles. One interesting example of tandem radical cyclizations involves the first example of a product derived by a formal radical [2+2+2] cycloaddition. Thus, reaction of 7 using triphenyltin... [Pg.354]

This year has seen several studies directed towards the use of carbohydrates as auxiliaries for Diels-Alder, 1,3-dipolar cycloadditions and related pericyclic processes. The arabino and ribo derivatives 125 and 126 have both been evaluated as dieneophiles in the Diels-Alder reaction and shown to provide efficient asymmetric induction. The xylitol, ribitol and arabinitol-based auxiliaries 127-129 also provide good levels of induction by a mechanism that requires chelation involving the oxygen centres of the dioxane rings. ... [Pg.319]

See other pages where Cycloaddition reactions involving carbohydrates is mentioned: [Pg.16]    [Pg.34]    [Pg.243]    [Pg.268]    [Pg.26]    [Pg.298]    [Pg.159]    [Pg.55]    [Pg.84]    [Pg.2173]    [Pg.249]    [Pg.694]    [Pg.694]    [Pg.79]    [Pg.237]    [Pg.207]    [Pg.99]    [Pg.158]    [Pg.185]    [Pg.443]    [Pg.694]    [Pg.26]    [Pg.384]   
See also in sourсe #XX -- [ Pg.7 ]



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