Stereoselectivity alkynyl

Comins et al. <20010L469> achieved the synthesis of the same allopumiliotoxin 267A 215 by a stereoselective alkynylation of the appropriately substituted 4-MeO-pyridine 226. The C-6 side chain is introduced by an aldol condensation between an aldehyde and indolizidinone 227 (Equation 17). 

Stereoselective alkynylation of 61 and subsequent triflation gave 62, a good precursor for conversion to 63 with copper(I) halides in DMF (Scheme 4.16) [28]. 

The scope of regio- and stereo-selective synthesis of vinylallenes by 1,5-(>S )-substitution of enyne acetates and oxiranes with organocuprates has been explored the products are usually obtained as mixtures of E- and Z-isomers (Scheme 12), ° Optimum conditions for stereoselective alkynylation of trans-2,3-epoxy sulfides at C(2), with double inversion of configuration, on reaction with alkynylaluminiums (Scheme 13) have been sought. 

Pale et al. have reported that the stereoselective electrophile trapping of alkynyl-stabilized lithiated epoxides 189, generated from the parent epoxide 188 and n-BuLi, gives substituted epoxides such as 190, in good yield and de (Scheme 5.44) [67]. 

The alkynyl reagent 9 was recently introduced for the dia stereoselective synthesis of tertiary propargylic alcohols144. 9 can be prepared as a solid 1 1 complex with tetrahydrofuran by treatment of 9-methoxy-9-borabicyclo[3.3.1]nonane with (trimethylsilylethynyl)lithium, followed by addition of boron trifluoride-diethyl ether complex. The nucleophilic addition of reagent 9 to (R)-2-methoxy-2-methylhexanal (10) afforded a mixture of the diastereomers 11 with a considerable preference to the nonchelation-controlled (3S,4R)-isomer144. 

To date, only double Heck reactions have been described, but triple Heck reactions are also possible [39]. Reaction of the alkynyl aryl iodide 6/1-55 with norbor-nene in the presence of Pd(OAc)2, triphenylphosphane and triethylamine as base led to the cyclopropanated norbornene derivate 6/1-59 as a single diastereomer in 40% yield (Scheme 6/1.13). It can be assumed that the alkenyl Pd-species 6/1-56 is first formed stereoselectively, and this undergoes a Heck reaction with norbornene... 

In another example, Hg(OTf)2 has been used for the stereoselective ring expansion of 116 to 117 with excellent stereospecificity for the (Z)-isomer (Equation (43)).156 Carbomercuration reactions have also been observed for derivatives such as 118, which possesses both an allylic silane as well as an alkynyl functionality. For 118, the reaction affords the 5-m -ring compound 119 as the (Z)-isomer. Formation of the (/. )-isomcr is disfavored because the bulk of the TMS group precludes an anti-attack (Equation (44)).157... 

A characteristic feature of contemporary investigations in the held under consideration, is the interest in cycloaddition reactions of nitrile oxides with acetylenes in which properties of the C=C bond are modified by complex formation or by an adjacent metal or metalloid atom. The use of such compounds offers promising synthetic results. In particular, unlike the frequently unselec-tive reactions of 1,3-enynes with 1,3-dipoles, nitrile oxides add chemo-, regio-and stereoselectively to the free double bond of (l,3-enyne)Co2(CO)6 complexes to provide 5-alkynyl-2-oxazoline derivatives in moderate to excellent yield. For example, enyne 215 reacts with in situ generated PhCNO to give 80% yield of isoxazoline 216 (372). 

Anomeric acetates 104 have been also used as electrophiles toward alkynylindium reagents 105 under Barbier conditions. Good yields and 1,2-cA-stereoselectivities were observed during the reaction (Scheme 36). The alkynylation was applied to the synthesis of an a-(l —>6)-C -disaccharide (110) analogue of methyl isomaltoside.108... 

In recent years, Hoppe s group has considerably extended the isomerization-addition methodology, especially for the highly regio- and stereoselective synthesis of 1,2-alkadienyl carbamates. It involves deprotonation of alkynyl carbamates, transme-talation into a titanium species and subsequent reaction with carbonyl compounds [26-30]. This group recently described the preparation of enantiomerically enriched 4-hydroxyallenyl carbamates 22 by sparteine-mediated lithiation of alkynyl carbamates 20 [29]. Impressive examples of these transformations are summarized in Scheme 8.8. 

A cuprate prepared in situ from tBuPh2SiLi and Cul has been found to react with alkynyl epoxides to afford allenylsilanes (Eq. 9.43) [50]. Enantioenriched alkynyl epoxides, which are readily prepared in high yield through Sharpless asymmetric epoxidation [51], afford chiral allenylsilanes with anti stereoselectivity. 

Regiospeciflc, uncatalysed hydrophosphination of typical Michael acceptors, such as methyl acrylate, has been reported to proceed readily with alkenyl- an alkynyl-phosphine oxides, e.g. R(l )P(H)0. Good stereoselectivity was observed when a chiral electrophile was used. The reaction is believed to proceed owing to the strong... 

Cyclization of secondary alkyl radicals can occur with a, (S-alkynyl esters, such as 12, and proceeds with high stereoselectivity to give predominantly (Z)-exocyclic alkenes at low temperature upon reaction with (TMS)3SiH (Reaction 7.17) [28]. 

The above-described procedure is advantageous towards the precedent method since (a) the starting lithium alkynyl selenolate is prepared in situ, avoiding the laborious preparation of the acetylenic selenides and (b) the hydrozirconation step is regio- and stereoselective, in contrast with the previously discussed hydrozirconation of acetylenic selenides resulting in a mixtnre of the regioisomers, and requires only 1 equiv of the Schwartz reagent instead of 2 eqniv of the precedent procednre. 

To form the stereocenter at C-3 a direct reduction-alkynylation sequence was applied, that provided the diastereomeric homopropargylic alcohols 83 in a ratio of syn anti=76l2A, The major isomer syn-S3 was isolated in 55% yield. The key step of the synthesis was an intramolecular imidotitanium-al-kyne [2+2] cycloaddition/acyl cyanide condensation. With this sequence the pyrrolidine ring was formed and all the carbon atoms of the alkyl side chain were established in acrylonitrile 84. The reduction of the imine double bond proceeded stereoselectively and the nitrile group was removed reductively en route to the target compound. 

Section 14.2 describes the highly stereoselective cyclopropanation chemistry of the donor/acceptor-carbenoids (Fig. 14.1a) [16]. This section introduces the range of vinyl, aryl, alkynyl, and heteroaryl functionalities that have been used as donor groups in this chemistry. Also, chiral auxiliaries and chiral catalysts that achieve high asymmetric induction in this chemistry are described [25]. The next two sections cover chemistry that is unique to the vinylcarbenoid system, namely [3-t4] cycloaddition with dienes (Fig. 14.1b see also Section 14.3) [13] and [3-1-2] cycloaddition with vinyl... 

When the phenyl-substituted alkynyl sulfone 42 is used as a substrate for the Cu-catalyzed carbomagnesiation, interesting nucleophile-dependent stereoselectivity is observed. While the use of allyl Grignard reagent results in a syn addition, the use of aryl Grignard reagent results in an awh -carbomagnesiation (Scheme 25). ... 

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