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Chemoselectivity donors

In accordance with this, the reaction of the electron-donor-substituted butadienes 170 (R=Ph, OMe) with the arylcarbene complexes 163 yields divinylcyclopropane intermediates 168 with high chemoselectivity for the electron-rich double bond in 170, which readily undergo a [3,3]-sigmatropic rearrangement to give the as-6,7-disubstituted 1,4-cycloheptadiene derivatives... [Pg.51]

Glycosyl esters with remote functionality constitute a relatively new class of O-carbonyl glycosyl donors, which fulfill the prospect of mild and chemoselective activation protocols (Scheme 3.22). For example, Kobayashi and coworkers have developed a 2-pyridine carboxylate glycosyl donor 134 (Y = 2-pyridyl), which is activated by the coordination of metal Lewis acid (El+) to the Lewis basic pyridine nitrogen atom and ester carbonyl oxygen atom [324]. In the event, 2-pyridyl (carbonyl) donor 134 and the monosaccharide acceptor were treated with copper(II) triflate (2.2 equiv) in diethyl ether at —50 °C, providing the disaccharide 136 in 70% (a P,... [Pg.142]

The concept of armed/disarmed glycosyl donors was subsequently extended by other groups to thioglycosides21 and selenoglycosides.64 A similar strategy has been used by Friesen and Danishefsky to achieve chemoselectivity in electrophilic addition to glycal double bonds.65... [Pg.109]

The most spectacular application of the donor/acceptor-substituted carbenoids has been intermolecular C-H activation by means of carbenoid-induced C-H insertion [17]. Prior to the development of the donor/acceptor carbenoids, the intermolecular C-H insertion was not considered synthetically useful [5]. Since these carbenoid intermediates were not sufficiently selective and they were very prone to carbene dimerization, intramolecular reactions were required in order to control the chemistry effectively [17]. The enhanced chemoselectivity of the donor/acceptor-substituted carbenoids has enabled intermolecular C-H insertion to become a very practical enantioselective method for C-H activation. Since the initial report in 1997 [121], the field of intermolecular enantioselective C-H insertion has undergone explosive growth [14, 15]. Excellent levels of asymmetric induction are obtained when these carbenoids are derived... [Pg.328]

In summary, the chemistry of the donor/acceptor-substituted carbenoids represents a new avenue of research for metal-catalyzed decomposition of diazo compounds. The resulting carbenoids are more chemoselective than the conventional carbenoids, which allows reactions to be achieved that were previously inaccessible. The discovery of pan-tolactone as an effective chiral auxiliary, and rhodium prolinates as exceptional chiral catalysts for this class of rhodium-carbenoid intermediate, broadens the synthetic utility of this chemistry. The successful development of the asymmetric intermolecular C-H activation process underscores the potential of this class of carbenoids for organic synthesis. [Pg.337]

Hydrolase-catalyzed enantioselective N-acylation is an important tool for the preparation of enantiopure a- and P-aminoacids. It has been observed that the reactions of many amino acid esters with ester acyl donors catalyzed by CALB is sometimes complicated by interesterification reactions. CALA has, however, emerged as a very chemoselective catalyst in favor of N-acylation of P-aminoesters. Some reviews on CALA and other hydrolases as catalysts for N-acylations of aminoesters are available [109, 126, 127]. [Pg.104]

Because it is inexpensive and very simple, the hydrogen atom transfer method is useful for the preparation of many kinds of simple molecules. Its use in complex synthetic tasks is limited because the yields are often modest, a large excess of the H-donor is required, and chemoselectivity is certain to be poor in polyfunctional molecules with several relatively weak C—H bonds. It can be best employed to advantage when the addition of a relatively small molecule to a complex acceptor is required. [Pg.753]

Iridium-monotosylated ethylenediamine [Ts(en)] and Ir-CF3Ts(en) are highly active and chemoselective catalysts for the aqueous-phase transfer hydrogenation of aldehydes using sodium formate as the hydrogen donor.376... [Pg.141]

A direct enantioselective cross-aldol-type reaction of acetonitrile with an aldehyde (RCHO) has been reported, giving /3-cyano alcohol product, R-CH (OH)-CH2-CN, (7e) in up to 77% ee.148 CH3CN, acting as an acetate surrogate, is chemoselectively activated and deprotonated using a soft metal alkoxide (CuO-Bu1) in a strong donor solvent (HMPA), with a bulky chiral diphosphine as auxiliary. [Pg.17]

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See also in sourсe #XX -- [ Pg.100 ]



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