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Aldol reaction stereoselective

Ketones, in which one alkyl group R is sterically demanding, only give the trans-enolate on deprotonation with LDA at —12°C (W.A. Kleschick, 1977, see p. 60f.). Ketones also enolize regioseiectively towards the less substituted carbon, and stereoselectively to the trans-enolate, if the enolates are formed by a bulky base and trapped with dialkyl boron triflates, R2BOSO2CF3, at low temperatures (D A. Evans, 1979). Both types of trans-enolates can be applied in stereoselective aldol reactions (see p. 60f.). [Pg.12]

In contrast, highly stereoselective aldol reactions are feasible when the boron etiolates of the mandelic acid derived ketones (/ )- and (5,)-l- t,r -butyldimethylsiloxy-l-cyclohexyl-2-butanone react with aldehydes33. When these ketones are treated with dialkylboryl triflate, there is exclusive formation of the (Z)-enolates. Subsequent addition to aldehydes leads to the formation of the iyn-adducts whose ratio is 100 1 in optimized cases. [Pg.464]

Figure 10.19 Oxidative enzymatic generation of dihydroxyacetone phosphate in situ for stereoselective aldol reactions using DHAP aldolases (a), and extension by pH-controlled, integrated precursor preparation and product liberation (b). Figure 10.19 Oxidative enzymatic generation of dihydroxyacetone phosphate in situ for stereoselective aldol reactions using DHAP aldolases (a), and extension by pH-controlled, integrated precursor preparation and product liberation (b).
Reagents are available nowadays for acyl anions other than (4). Thus when Heathcock made the ketone (16), which he used in stereoselective aldol reactions, he needed a-hydroxy ketone (17), This required synthon (18) for which an acetylene is not a good choice as there are as yet no means of controlling the reglo-selectivity of hydration of (19). [Pg.260]

In the presence of zinc chloride, stereoselective aldol reactions can be carried out. The aldol reaction with the lithium enolate of /-butyl malonate and various a-alkoxy aldehydes gave anti-l,2-diols in high yields, and 2-trityloxypropanal yielded the syn-l,2-diol under the same conditions.633 Stoichiometric amounts of zinc chloride contribute to the formation of aminoni-tropyridines by direct amination of nitropyridines with methoxyamine under basic conditions.634 Zinc chloride can also be used as a radical initiator.635... [Pg.1202]

Two stereoselective aldol reactions, followed by a nitrile oxide cycloaddition and a stereoselective late-stage epoxidation are the key steps in the total synthesis of myriaporones 1, 3, and 4 (436, 437, and 438). The synthesis allows... [Pg.95]

Usually, (Z)-boron enolates can be prepared by treating /V-acyl oxazolidones with di-K-butylboron triflate and triethylamine in CH2CI2 at 78°C, and the enolate then prepared can easily undergo aldol reaction at this temperature to give a, vy -aldol product with more than 99% diastereoselectivity (Scheme 3-4). In this example, the boron counterion plays an important role in the stereoselective aldol reaction. Triethylamine is more effective than di-wo-propylethyl amine in the enolization step. Changing boron to lithium leads to a drop in stereoselectivity. [Pg.139]

STEREOSELECTIVE ALDOL REACTION OF DOUBLY DEPROTONATED (RM+)-2-HYDROXY-1,2,2-TRIPHENYLETHYL ACETATE (HYTRA) (R)-3-HYDROXY-4-METHYLPENTANOIC ACID (Pentanoic acid, 3-hydroxy-4-methyl-, (R)-)... [Pg.20]

The chapter on alicyclic stereoselection has been splitted in two chapters (9 and 10). Chapter 10, which is exclusively devoted to Sharpless asymmetric epoxidation and dihydroxylation, has been rewritten de novo. The most recent advances in catalytic and stereoselective aldol reactions are incorporated in Chapter 9. [Pg.550]

The lithium enolate of di-i-butyl malonate undergoes a stereoselective aldol reaction with Qf-alkoxyaldehydes to give anft-l,2-diol derivatives in the case of the highly hindered 2-trityloxypropanal, the stereochemistry is reversed. [Pg.11]

Thioamides of secondary amines are deprotonated with isopropyhnagnesium to give (Z)-enolates. Thioamides of primary amines react with two equivalents of /-PrMgBr to afford dianions that have been shown to have the (Z)-configuration. These magnesium species are versatile intermediates in stereoselective aldol reaction (equation 50, Table 5 ... [Pg.459]

Enzymatic synthesis relying on the use of aldolases offers several advantages. As opposed to chemical aldolization, aldolases usually catalyze a stereoselective aldol reaction under mild conditions there is no need for protection of functional groups and no cofactors are required. Moreover, whereas high specificity is reported for the donor substrate, broad flexibility toward the acceptor is generally observed. Finally, aldolases herein discussed do not use phosphorylated substrates, contrary to phosphoenolpyruvate-dependent aldolases involved in vivo in the biosynthetic pathway, such as KDO synthetase or DAHP synthetase [18,19]. [Pg.471]

Organoaluminum reagents, 202 1,1,1-Trifluoroacetone, 323 Trityllithium, 338 Zinc chloride, 349 Stereoselective aldol reactions With boron enolates Boron trichloride, 43 Chlorodimethoxyborane, 73 9-(Phenylseleno)-9-borabicyclo-[3.3.1]nonane, 245 With silyl enol ethers... [Pg.356]

Epothilone A (la) was prepared with a convergent synthetic strategy starting from the three building blocks 6. 9, and 15 Fragments 6 and 9 were coupled in a highly stereoselective aldol reaction (C-6/C-7), and this was followed by esterification with the last component. 15... [Pg.75]

Chiral 2-sulfinylcyclohexanones react with lithium alkyl acetates (i.e. lithium ester enolates) to produce alcohols with four contiguous chiral centres.57 This stereoselective aldol reaction is proposed to depend upon tricoordination by lithium of the enolate, sulfinyl, and carbonyl oxygens of the substrates. [Pg.11]

Highly stereoselective aldol reactions of lithium ester enolates (LiCR1 R2CC>2R3) with (/0-2-(/ -tolylsulfiny I (cyclohexanone have been attributed to intermediacy of tricoordinate lithium species which involve the enolate and the sulfinyl and carbonyl oxygens of the substrates.43 The O-metallated /<-hydroxyalkanoatcs formed by aldol-type reaction of carbonyl compounds with enolates derived from esters of alkanoic acids undergo spontaneous intramolecular cyclization to /1-lactones if phenyl rather than alkyl esters are used the reaction has also been found to occur with other activated derivatives of carboxylic acids.44... [Pg.335]

In other studies, analysis of the products of reaction between formaldehyde and guanosine at moderate pH shows a new adduct—formed by condensing two molecules of each reactant—which has implications for the mechanism of DNA cross-linking by formaldehyde,17 while the kinetics of the mutarotation of N-(/ -chlorophcnyl)-//-D-glucopyranosylamine have been measured in methanolic benzoate buffers.18 For a stereoselective aldol reaction of a ketene acetal, see the next section. [Pg.4]

Stereoselective Aldol Reactions Using Proline Organocatalysts... [Pg.14]

Samarium(II) iodide mediates highly stereoselective aldol reactions of acylaziridines with aldehydes, typically accompanied by ring opening, producing useful /5-amino-/S -hydroxy derivatives.123... [Pg.14]

As with most camphor-based chiral auxiliaries, the size and steric congestion at the C-8 position of the camphor moiety can determine its efficiency. Through the formation of a connection between C-8 and C-2, a novel camphor-based oxazinone auxiliary 29, which can be prepared from camphor in 3 steps,52 becomes highly effective in directing stereoselective aldol reactions (Scheme 5.11).53... [Pg.67]

M. Braun, Recent Developments in Stereoselective Aldol Reactions , in Advances in Carbanion Chemistry (V Snieckus, Ed.), Vol. 1, 177, Jai Press Inc, Greenwich, CT, 1992. [Pg.590]

To achieve a stereoselective aldol reaction that does not depend on the structural type of the reacting carbonyl compounds, many efforts have been made to use boron enolates. Based on early studies by Mukaiyama et al.8a and Fenzl and K0ster,8b in 1979, Masamune and others reported a highly diastereoselective aldol reaction involving dialkylboron enolates (enol borinates)9... [Pg.51]

In the same year that Masamune et al. published their chiral auxiliary-based stereoselective aldol reaction, Evans et al. synthesized two recyclable chiral... [Pg.60]

Oppolzer et al. completed an asymmetric synthesis of (-)-denticulatin A (48) by using a syn-aldol methodology as a key feature18 (Scheme 2.1r). The diethyl-boron enolate of N-propionyIbomanesultam (46-ent) obtained from diethylboron triflate and Hunig s base underwent a highly stereoselective aldol reaction with the mes o-dialdchydc 49 to furnish the lactols 50 in 74% yield as a 2 1 epimeric mixture. When the lactols 50 were treated with 1, 2-ethanedithiol in the presence... [Pg.68]

Any stereochemistry in the adduct is preserved right through this reduction and hydrolysis sequence you might like to compare the products with the products of the stereoselective aldol reactions you saw in Chapter 34. [Pg.935]


See other pages where Aldol reaction stereoselective is mentioned: [Pg.247]    [Pg.586]    [Pg.272]    [Pg.217]    [Pg.127]    [Pg.131]    [Pg.282]    [Pg.188]    [Pg.450]    [Pg.134]    [Pg.469]    [Pg.494]    [Pg.4]    [Pg.214]    [Pg.16]    [Pg.366]   
See also in sourсe #XX -- [ Pg.133 , Pg.134 ]

See also in sourсe #XX -- [ Pg.805 ]




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1.3- diols, asymmetric aldol reactions stereoselective synthesis

Acetamide, a-sulfinylenolates aldol reaction, stereoselectivity

Aldehydes aldol reaction, stereoselective addition

Aldol addition reaction stereoselectivity

Aldol condensation reaction stereoselectivity

Aldol reaction predict stereoselection

Aldol reaction stereoselectivity

Aldol reaction stereoselectivity

Aldol reaction, self stereoselectivity

Aldol reactions can be stereoselective

Aldol reactions stereoselective substrate-controlled

Aldol-type reaction stereoselective

Aluminum, diethylenolates aldol reaction, stereoselective

Asymmetric aldol reactions stereoselective synthesis

Chiral -hydroxy aldol reaction, stereoselectivity

Cyclohexanone aldol reaction, stereoselectivity

Enolates aldol reaction, stereoselectivity

Ketones aldol reaction, stereoselectivity

Ketones, a-sulfinyl aldol reaction, stereoselectivity

Ketones, ethyl aldol reaction, stereoselection

Ketones, ethyl stereoselective aldol reaction

Kinetic stereoselectivity Aldol-type reactions

Mukaiyama aldol reaction stereoselectivity

Other Stereoselective Aldol Reactions

Propionates aldol reaction, stereoselection

Reaction stereoselectivity

Secondary amines aldol reaction, stereoselectivity

Stannous enolates, stereoselective aldol reaction

Stereoselective Acetate Aldol Reactions Using Chiral Auxiliaries

Stereoselective Aldol Reactions Using Proline Organocatalysts

Stereoselective Aldol Reactions in the Synthesis of Polyketide Natural Products

Stereoselective Synthesis of 1,3-Diols Asymmetric Aldol Reactions

Stereoselective aldol reaction using

Stereoselective reactions

Stereoselectivity aldol

Stereoselectivity cross-aldol reactions

Stereoselectivity in the aldol reaction

Subject aldol reaction, anti stereoselectivity

Substrates stereoselective aldol reactions

Thioamides aldol reactions, stereoselectivity

Thioesters aldol reactions, stereoselectivity

Titanium, trialkoxyenolates aldol reaction, syn stereoselectivity

Titanium, tris enolates aldol reaction, syn stereoselectivity

Zirconium, chlorodicyclopentadienylenolates aldol reaction, stereoselectivity

Zirconium, chlorodicyclopentadienylenolates aldol reaction, syn stereoselectivity

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