Organometallic reagents derivatives

There are a wide variety of methods for introduction of substituents at C3. Since this is the preferred site for electrophilic substitution, direct alkylation and acylation procedures are often effective. Even mild electrophiles such as alkenes with EW substituents can react at the 3-position of the indole ring. Techniques for preparation of 3-lithioindoles, usually by halogen-metal exchange, have been developed and this provides access not only to the lithium reagents but also to other organometallic reagents derived from them. The 3-position is also reactive toward electrophilic mercuration. 

The disconnection strategies summarised on p. 586 reveal that the nucleophilic organometallic reagents derived from alkyl halides (e.g. R MgX, RLi) require... 

Normant, J.-F. Synthesis of selectively fluori-nated substrates via organometallic reagents derived from CF2=CFC1, CF2=CC12, CF2=CH2. J. Organomet. Chem. 1990, 400,19-34. Schmidt, R. R. Talbiersky, J. Russegger, P. Generation of functionally substituted vinyl-lithium compounds. Results and calculations. Tetrahedron Lett. 1979, 4273-4276. 

For the sake of comparison, the regio- and stereo-selectivity of some nucleophilic openings of vinyl-oxiranes with organometallic reagents derived from copper, lithium, sodium and other metals indicate the control avail le under some conditions. Complete control of diastereoselectivity in the opening of cyclic vinyloxiranes is available, for example by utilizing palladium(0)-catalyzed conditions in the reaction of die sodium salt of dimethyl malonate with cyclic vinyloxiranes.Increased substitution on the vinyl portion of the vinyloxirane leads to isomerization with opening, as in the case of the disub-stituted vinyloxirane (150 equation 49). ... 

Hydroalumination is a less often used reaction but the resulting organoalanes are more reactive than either organosilanes or boranes and less reactive than the traditional organometallic reagents derived from lithium or magnesium. Various aluminum hydrides are commercially available or readily prepared by reduction of aliuninum halides [10]. 

Mixed lithium-sodium organometallic reagents derived from carbaborane systems have been used to prepare 7-vertex nWo-phosphacarbaboranes. The tetrazolylphosphines (22) have been obtained from the reactions of potassium tetrazolates with diphenylchlorophosphine. ... 

Organometallic Reagents Derived from 2-Bromomethylacrylic Acid and Its Derivatives in the Synthesis of2-Alkylidene-4-Hydroxyalkanoates and 2-Alkylidene-4-Aminoalkanoates... 

The ketones can be obtained by addition of organometallic reagents to acids and their derivatives. 

House investigated the role of cuprous ions in the conjugate addition of organometallic reagents. He found that the catalytic effect can be explained by the intervention of a methyl copper derivative, which reacts rapidly with the carbon-carbon double bonds of the conjugated system. 

Organometallic reagents and alkali metal amides can react via a cyclic transition state (Section II, B, 5) beginning with electrophilic attack at the most basic ring-nitrogen. As a result, sodamide (in dimethylaniline, 145°, 2 hr) yields the 4-amino derivatives (40% yield S)) methyl- or phenyl-magnesium iodides give the 4-adduct quantitatively.s ... 

The most common reactions of carboxylic acid derivatives are substitution by water (hydrolysis) to yield an acid, by an alcohol (alcoholysis) to yield an ester, by an amine (aminolysis) to yield an amide, by hydride ion to yield an alcohol (reduction), and by an organometallic reagent to yield an alcohol (Grignard reaction). 

The optically active iodide 153 (Scheme 43) can be conveniently prepared from commercially available methyl (S)-(+)-3-hydroxy-2-methylpropionate (154) (see Scheme 41). At this stage of the synthesis, our plan called for the conversion of 153 to a nucleophilic organometallic species, with the hope that the latter would combine with epoxide 152. As matters transpired, we found that the mixed higher order cuprate reagent derived from 153 reacts in the desired and expected way with epoxide 152, affording alcohol 180 in 88% yield this regioselective union creates the C12-C13 bond of rapamycin. 

As described in Section 2.3.2, vinylaziridines are versatile intermediates for the stereoselective synthesis of (E)-alkene dipeptide isosteres. One of the simplest methods for the synthesis of alkene isosteres such as 242 and 243 via aziridine derivatives of type 240 and 241 (Scheme 2.59) involves the use of chiral anti- and syn-amino alcohols 238 and 239, synthesizable in turn from various chiral amino aldehydes 237. However, when a chiral N-protected amino aldehyde derived from a natural ot-amino acid is treated with an organometallic reagent such as vinylmag-nesium bromide, a mixture of anti- and syn-amino alcohols 238 and 239 is always obtained. Highly stereoselective syntheses of either anti- or syn-amino alcohols 238 or 239, and hence 2,3-trans- or 2,3-as-3-alkyl-2-vinylaziridines 240 or 241, from readily available amino aldehydes 237 had thus hitherto been difficult. Ibuka and coworkers overcame this difficulty by developing an extremely useful epimerization of vinylaziridines. Palladium(0)-catalyzed reactions of 2,3-trons-2-vinylaziri-dines 240 afforded the thermodynamically more stable 2,3-cis isomers 241 predominantly over 240 (241 240 >94 6) through 7i-allylpalladium intermediates, in accordance with ab initio calculations [29]. This epimerization allowed a highly stereoselective synthesis of (E) -alkene dipeptide isosteres 243 with the desired L,L-... 

In the case of the amide 11 (R = CI13) derived from 2-oxopropanoic amid and amine G the chelation-controlled product is predominantly formed with all organometallic reagents. No reversal of the stereochemistry is observed, presumably for the same steric reason as with the corresponding pyruvic amides derived from amines E and F. 

Addition of Grignard and organolithium reagents to imines 2. derived from enantiomerically pure (S)-valinol (1), provides a-substituted phenethylamines 3 in moderate to good yield and excellent diastereoselectivity (in each case only one diastereomer can be detected by NMR)15. By appropriate selection of imine and organometallic reagent both diastereomeric amines are accessible (see also refs 16 and 17). 

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