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Stereoselective cycloadditions

The absolute configuration of products obtained in the highly stereoselective cycloaddition reactions with inverse electron-demand catalyzed by the t-Bu-BOX-Cu(II) complex can also be accounted for by a square-planar geometry at the cop-per(II) center. A square-planar intermediate is supported by the X-ray structure of the hydrolyzed enone bound to the chiral BOX-copper(II) catalyst, shown as 29b in Scheme 4.24. [Pg.181]

The synthesis in Scheme 13.64 was carried out by E. Carreira and co-workers at ETH in Zurich, Switzerland. A key step in the synthesis in Scheme 13.64 is a stereoselective cycloaddition using a phosphonyl-substituted nitrile oxide, which was used to form the C(16)-C(17) bond and install the C(15) oxygen. [Pg.1226]

A library of fifteen 6,7,9,9a-tetrahydro-57/-pyrazolo[l,2-tf]pyrrolo[3,4-ir]pyrazole-l,3,5(2/7,3a7/)-triones 712 was prepared by combinatorial stereoselective cycloadditions of compounds 320 to A-substituted maleimides. [Pg.470]

Scheme 6.34. Stereoselective cycloadditions with (ebthi)Zr(OTf)2 as the chiral catalyst. Scheme 6.34. Stereoselective cycloadditions with (ebthi)Zr(OTf)2 as the chiral catalyst.
P-Lactams. Diketene can function as an equivalent to acetylketene, CH3C0CH=C=0, to provide 3-acetyl-p-lactams by [2 + 2]cycloaddition with imines.1 A stereoselective cycloaddition of this type can furnish a useful precursor (2) to lp-methylcarbapenems. Thus reaction of diketene with the chiral imine 1, prepared in a few steps from the readily available methyl (S)-3-hydroxy-2-meth-ylpropionate (Aldrich), can provide the desired 3,4-frpreviously developed for synthesis of the antibacterial carbapenem 4. [Pg.142]

If the vinylallene possesses a substituent at the vinylic terminal position, an endo adduct is preferentially obtained owing to the secondary orbital overlap. Only the E-isomer of propenylallene underwent the regio- and stereoselective cycloaddition with methyl vinyl ketone to afford the endo-isomer as the major product. The Z-iso-mer was unreactive because it preferred the transoid conformation [165]. [Pg.793]

Examples of the stereoselective cycloaddition are shown below. The trans disubstitution is kept in the reaction with dimethyl fumarate [168]. [Pg.794]

Cycloaddition Anodically generated phe-noxy cations, o-quinones, and o-quinone methides react with olefins to bicyclic and tricyclic annelated compounds in stereoselective cycloadditions [250-252]. In the synthesis of a Euglobal skeleton, a quinone methide has been generated in situ by anodic oxidation mediated by DDQ. The cycloaddition was promoted by the use of lithium perchlorate... [Pg.428]

Due to space limitations, it is not possible to provide a comprehensive coverage of all 1,3-dipolar cycloaddition chemistry carried out using diazo compounds over the past two decades. Rather, attention will be given to the most significant developments, including the synthesis of novel heterocyclic systems, the preparation of well-established heterocycles (such as pyrazoles and pyrazolines) with novel functionalities, as well as stereoselective cycloadditions. A discussion of the theoretical, mechanistic, and kinetic aspects of these 1,3-dipolar cycloaddition reactions will be kept to a minimum, but references to important work in these areas will be given at appropriate places. Authoritative reviews dealing with the... [Pg.540]

The above dramatic dependence of regio- and stereoselectivity on the nature of the metal can be explained by the reaction mechanism shown in Scheme 11.49 (167). The nitrone cycloadditions of allylic alcohols are again magnesium-specific just like the nitrile oxide reactions described in Section 11.2.2. Magnesium ions accelerate the reaction through a metal ion-bound intramolecular cycloaddition path. On the other hand, zinc ions afford no such rate acceleration, but these ions catalyze the acetalization at the benzoyl carbonyl moiety of the nitrone to provide a hemiacetal intermediate. The subsequent intramolecular regio- and stereoselective cycloaddition reaction gives the observed products. [Pg.798]

Product studies of the stereoselective cycloaddition and epoxidation of enol ethers by a-peroxylactone were interpreted in terms of 5n2 processes.156 Steric and stereoelec -tronic effects are important. [Pg.322]

Vinyl ethers, such as EtOCH=CH2, EtOCH=CHMe, EtOCH=CHOEt, etc. (with or without an additional oxygen function), have been shown to react with a-peroxy lactones (54) to give mainly the products of stereoselective cycloaddition (55) contaminated by epoxides (56).57... [Pg.404]

The 3-nitro analog was also synthesized by Isobe laboratory with the intention of using it a chiral dienophile in synthetic approaches to heterocyclic systems of natural products, based on highly stereoselective cycloaddition reactions. [Pg.10]

Cyclobutanones. Irradiation of 1 in the presence of cyclohexene produces the cyclobutanone 2 rather than the cyclopropane 3, as originally believed. This reaction involves a Wolff rearrangement of the initially formed carbene (a) to a ketene (b), which undergoes regio- and stereoselective cycloaddition to the olefin. [Pg.134]

The isolation of cyclopentanecarboxylates from 1,3-diiodopropane and an acrylate in the presence of metallic copper and an alkyl isonitrile has been reported by Saegusa and coworkers (equation 39). The reaction is proposed to involve formation of a transient 3-iodopropylcopper-isonitrile complex (47) from the diiodopropane, which then adds to the unsaturated ester in a Michael fashion (equation 40). The nonconcertedness of this reaction results in stereoselective cycloaddition. For example, Iratfa diethyl ma-leate and fumarate produce the same cyclopentane adduct in identical yields (equation 41). The generality of this cycloaddition has not been explored. [Pg.282]

G. Molteni Stereoselective cycloadditions of nitrilimines as a source of enantiopure heterocycles 2005H(65)2513... [Pg.4]

There have been only a few reports of reactions of this type including cycloaddition of dienes 157 with the powerful dienophile 4-phenyl-l,2,4-triazoline-3,5-dione <1996J(P1)2297> and stereoselective cycloaddition of the chiral nitrone 158 with a variety of dipolarophiles <2000JOC7000>. A rare example of intramolecular hetero-Diels-Alder reaction involving a 4-methylene-l,3-oxathiolan-5-one 3 -oxide is provided by the cycloaddition reaction of 159 to give 160 (Equation 42) <1998EJ02733>. [Pg.861]


See other pages where Stereoselective cycloadditions is mentioned: [Pg.117]    [Pg.80]    [Pg.241]    [Pg.68]    [Pg.152]    [Pg.47]    [Pg.96]    [Pg.188]    [Pg.298]    [Pg.418]    [Pg.541]    [Pg.758]    [Pg.769]    [Pg.521]    [Pg.605]    [Pg.616]    [Pg.1079]    [Pg.1854]    [Pg.51]    [Pg.57]    [Pg.294]    [Pg.300]    [Pg.2034]    [Pg.137]    [Pg.576]    [Pg.231]    [Pg.267]   
See also in sourсe #XX -- [ Pg.96 ]




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1.3- Dipolar cycloaddition reactions absolute stereoselection

1.3- Dipolar cycloaddition reactions relative stereoselection

4+2]-Cycloaddition reverse stereoselectivity

Azomethine ylides stereoselective cycloadditions

Cycloaddition photochemical, stereoselectivity

Cycloaddition reactions stereoselectivity

Cycloaddition stereoselection

Cycloaddition stereoselection

Cycloadditions stereoselectivity

Diels-Alder cycloaddition stereoselectivity

Diels-Alder cycloadditions stereoselectivity

Dipolar cycloaddition reactions stereoselectivity

Intermolecular cycloadditions nitronate stereoselectivity

Intramolecular cycloadditions nitronate stereoselectivity

Intramolecular cycloadditions stereoselectivity

Nitrogen stereoselective cycloadditions

Nitrone cycloaddition stereoselective cyclization

Stereoselective reactions 1,3-dipolar cycloaddition

Stereoselective reactions 1,3-dipolar cycloadditions

Stereoselective-1,3 -dipolar cycloaddition

Stereoselectivity 1,3-dipolar cycloadditions

Stereoselectivity 1.3- dipolar cycloaddition

Stereoselectivity cycloaddition orientations

Stereoselectivity cycloaddition reactions, carbon-nitrogen

Stereoselectivity in -cycloadditions

Stereoselectivity intermolecular cycloadditions

Stereoselectivity ketene cycloaddition reactions

Stereoselectivity nitrile imine intramolecular cycloadditions

Stereoselectivity nitrile oxide cycloadditions

Stereoselectivity nitrile ylide 1,3-dipolar cycloadditions

Stereoselectivity of 1,3-dipolar cycloaddition

Stereoselectivity, of cycloadditions

Sulfur stereoselective cycloadditions

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