C＝N双键的不对称烯丙基化反应

详细地综述了有关C＝N双键立体选择性烯丙基化反应的研究进展. 重点讲述了使用手性辅助基团、手性试剂以及不对称催化剂进行C＝N双键不对称烯丙基化的方法.     

Stereoselective synthesis of anamarine

A stereoselective synthesis of the naturally occurring, α,β-unsaturated lactone anamarine is described. The key step was a highly stereoselective aldol reaction of a protected erythrulose derivative with a chiral aldehyde. Another relevant step was an asymmetric aldehyde allylation with a chiral allylborane. The lactone ring was made by means of a ring-closing metathesis.     

From allylic alcohols to chiral tertiary homoallylic alcohol: palladium-catalyzed asymmetric allylation of isatins

A palladium-catalyzed asymmetric allylation of isatins with allylic alcohols as an allyl donor was developed by using chiral spiro phosphoramidite ligands. A variety of chiral tertiary homoallylic alcohols 3-allyl-3-hydroxy-2-oxindoles were prepared directly from allylic alcohols in one step with excellent yields and moderate enantioselectivities. This represents the first catalytic asymmetric allylation of ketones with allylic alcohol as the allylating agent.     

Asymmetric allylation polymerization of bis(allylsilane) and dialdehyde containing Siphenyl linkage

Repetitive Sakurai–Hosomi allylation between dialdehyde and bis(allylsilane) yielded a polymer having stereogenic carbons in its main chain. In the presence of an enantiopure Lewis acid catalyst such as chiral (acyloxy)borane (CAB), the allylation polymerization proceeded in a stereoselective manner to give optically active polymers. We have prepared new monomers containing Siphenyl linkages for the asymmetric allylation polymerization. After polymerization, the Siphenyl linkages in the main chain could be cleaved easily to give the corresponding chiral homoallylic alcohol. The enantiomeric purity of the chiral polymer was then evaluated by chiral HPLC analysis of the alcohol obtained from the degradation.     

Stereoselective total synthesis of (+)-β-conhydrine from d-mannitol

An asymmetric synthesis of the piperidine alkaloid (+)-β-conhydrine has been developed starting from (R)-protected glyceraldehyde as the chiral precursor using Barbier allylation, azide nucleophilic substitution, and ring-closing metathesis as the key steps.     

Palladium-catalyzed asymmetric umpolung allylation of imines with allylic alcohols

A palladium-catalyzed asymmetric umpolung allylation reaction of imines with allylic alcohols has been developed. In the presence of chiral spiro phosphoramidite ligand 4, the allylation was accomplished with high yields and good enantioselectivities. The use of highly stable and easily available allylic alcohols instead of allylic metal reagents facilitated the preparation of chiral homoallylic amines.     

Silver‐Catalyzed Asymmetric Allylation: Allyltrimethoxysilane as a Remarkable Reagent

Recently, there have been some reports on the use of allyltrimethoxysilane for enantioselective allylation with various metal fluorides or a combination of chiral complex and fluoride anion. These reactions can be applied not only to aldehydes but also to ketones and imines. In this Focus Review we discuss the development of asymmetric allylation with allyltrimethoxysilane catalyzed by chiral silver complexes.     

醛的不对称烯丙基化反应研究进展

醛的不对称烯丙基化反应是合成手性烯丙基醇的一类重要方法, 从手性辅基控制反应和化学催化不对称反应两个方面对近20多年来的相关报道进行综述.     

Recent advances in chiral phosphine-silver(I) complex-catalyzed asymmetric reactions

Since the first report of silver(I)-catalyzed asymmetric aldol-type reaction of activated isocyanides with aldehydes using a chiral ferrocenylphosphine as a chiral phosphine ligand has been appeared in 1990, various chiral phosphine-silver(I) catalysts have been utilized in asymmetric transformations. This feature articles describes recent examples of chiral phosphine-silver(I) complex-catalyzed asymmetric reactions such as allylation, aldol reaction, Mannich-type reaction, hetero-Diels-Alder reaction, 1,3-dipolar cycloaddition and nitroso aldol reaction.     

An efficient route for the allylation of arylaldehydes to give enantiopure homoallylic alcohols

An efficient asymmetric synthesis of homoallylic alcohols is described by the allylation of carbonyl compounds using organocatalysts as chiral directors in the presence of tin metal. The effect of chiral environment is also studied on the allylation reactions. This method allows us to obtain two different enantiomers of homoallylic alcohol in the presence of the corresponding chiral compound. The protocol is applied to various aldehydes to obtain high yields and excellent enantioselectivities for the corresponding homoallylic alcohols.     

Catalytic asymmetric allylation of aldehydes and related reactions with bis(((S)-binaphthoxy)(isopropoxy)titanium) oxide as a mu-oxo-type chiral Lewis acid

A new, chiral bis-Ti(IV) oxide of type 3 has been designed and can be utilized for strong activation of aldehyde carbonyls, thereby allowing a new catalytic enantioselective allylation of aldehydes with allyltributyltin. The chiral bis-Ti(IV) catalyst (S,S)-3 can be readily prepared either by treatment of bis(triisopropoxy)titanium oxide with (S)-BINOL or by treatment of ((S)-binaphthoxy)isopropoxytitanium chloride with silver(I) oxide. Treatment of hydrocinnamaldehyde with allyltributyltin under the influence of chiral bis-Ti(IV) oxide (S,S)-3 generated in situ (10 mol %) in CH(2)Cl(2) afforded an allylation product in 84 % yield and with 99 % ee. This asymmetric allylation with non-racemic bis-Ti(IV) oxide 3 and partially resolved (S)-BINOL shows a positive nonlinear effect in correlation of the enantiopurity of the allylation product with the ee of the (S)-BINOL. Chiral bis-Ti(IV) oxide (S,S)-3 can also be utilized for related reactions such as asymmetric methallylation and propargylation of aldehydes with high enantioselectivity. This asymmetric approach provides a very useful way of obtaining high reactivity and selectivity through the simple introduction of the M-O-M unit into the design of chiral Lewis acid catalysts.     

Asymmetric allylation of aldehydes and glyoxylates through `C-centered' chiral pentacoordinate allylsilicates or promoted by Lewis acid

One-pot asymmetric allylation of aldehydes and glyoxylates with `C-centered' chiral pentacoordinate allylsilicates generated from a chiral diol-modified allyltrichlorosilane 8 in the presence of Lewis bases, gave optically active homoallylic alcohols 4 with relatively high enantioselectivity (up to 81% ee). The reactions proceed via a six-membered cyclic transition state. In contrast, the allylation reactions of glyoxylate with allylalkoxysilanes promoted by TiCl₄ proceed through an acyclic transition state. The chiral auxiliaries residing at different positions on the molecules exhibited different abilities for asymmetric induction, depending on the reaction pathway and the stereochemistry of the transition state.     

Stereoselective synthesis of (+)-hyptolide

The first total synthesis of the naturally occurring lactone (+)-hyptolide is described. Ethyl l-lactate was the chiral starting material. Key steps of this 15-step synthesis were a Brown's asymmetric allylation, a Carreira's asymmetric ethynylation and a ring closing metathesis.     

Remarkable salt effect on In-mediated allylation of N-tert-butanesulfinyl imines in aqueous media: highly practical asymmetric synthesis of chiral homoallylic amines and isoindolinones

A highly practical and efficient asymmetric synthesis of chiral homoallylic amines by In-mediated allylation of chiral N-tert-butanesulfinyl imines in aqueous media at room temperature was developed. With 2-formylbenzoate imine substrates, the method allows the highly enantioselective achievement of a variety of pharmacologically important 3-allyl isoindolinone compounds.     

Palladium-Catalyzed Cascade sp2 C−H Functionalization/Intramolecular Asymmetric Allylation: From Aryl Ureas and 1,3-Dienes to Chiral Indolines

A chiral Pd^II-catalyzed cascade sp² C−H functionalization/intramolecular asymmetric allylation reaction is reported. A new chiral sulfoxide–oxazoline (SOX) ligand bearing single chiral center on the sulfur was identified as the optimal ligand for the reaction, being efficient both in the C−H cleavage step and the stereocontrol of the allylation step. The broad scope of this method with respect to aryl ureas and 1,3-dienes enables the rapid construction of valuable chiral indoline derivatives with high yields and enantioselectivities (up to 99 % yield, up to 95:5 e.r.).     

Asymmetric allyltributylstannane addition to ketones catalyzed by chiral PYBOX-In(III) complex immobilized in ionic liquid

An indium complex of chiral PYBOX was applied in the catalytic asymmetric allylation of ketones in the ionic liquid. It was found that this chiral indium complex was strong enough to promote the reaction of ketones with allyltributylstannane smoothly. The products were obtained in moderate to high enantioselectivities, and the chiral catalyst immobilized in the ionic liquid could be reused with comparable enantioselectivities and yields.     

General strategy towards chiral methylene bis-pyrans: synthesis of the C2–C16 fragment of phorboxazole A

A chiral methylene bis-pyran fragment was synthesized by making efficient use of an oxy-anion intramolecular Michael addition, Brown’s asymmetric allylation and Grubb’s ring closing metathesis reactions in a stereoselective manner.     

Palladium‐Catalyzed Asymmetric Dihydroxylation of 1,3‐Dienes with Catechols

A palladium‐catalyzed asymmetric dihydroxylation of 1,3‐dienes with catechols is developed using chiral pyridinebis(oxazoline) ligands. Various chiral 2‐substituted 1,4‐benzodioxanes could be synthesized with moderate to high yields and enantioselectivities from readily available starting materials. The reaction is proposed to proceed through a cascade Wacker‐type hydroxypalladation/asymmetric allylation process.     

Bis(((S)-binaphthoxy)(isopropoxy)titanium) oxide as a mu-oxo-type chiral Lewis acid: application to catalytic asymmetric allylation of aldehydes

A new, chiral bis-Ti(IV) oxide of type 1 was successfully designed and can be utilized for strong activation of aldehyde carbonyls, thereby allowing a new catalytic enantioselective allylation of aldehydes with allyltributyltin. The chiral bis-Ti(IV) catalyst (S,S)-1 can be readily prepared either by treatment of bis(triisopropoxy)titanium oxide with (S)-binaphthol or by reaction of ((S)-binaphthoxy)isopropoxytitanium chloride with silver(I) oxide. Reaction of hydrocinnamaldehyde with allyltributyltin (1.1 equiv) under the influence of in situ generated chiral bis-Ti(IV) oxide (S,S)-1 (10 mol %) in CH2Cl2 at 0 degrees C for 4 h afforded 1-phenyl-5-hexen-3-ol in 84% yield with 99% ee. The present asymmetric allylation using nonracemic bis-Ti(IV) oxide 1 with partially resolved (S)-binaphthol exhibits a positive nonlinear effect in correlating the enantiopurity of allylation product with the ee of (S)-binaphthol. This asymmetric approach provides a very useful way for obtaining high reactivity and selectivity by the simple introduction of the M-O-M unit in the design of chiral Lewis acid catalysts.     

Stereoselective synthesis of hyptolide and 6-epi-hyptolide

The first stereoselective syntheses of the naturally occurring, ,β-unsaturated lactone hyptolide 1 and of its nonnatural epimer at C-6 are described. Ethyl l-lactate was the chiral starting material. Key steps of these syntheses were a Brown's asymmetric allylation, a Carreira's asymmetric ethynylation and a ring closing metathesis.