Reaction with metal ketones

C-C bonds can be formed by reaction with alkyl iodides or more usefully by reaction with metal carbonyls to give aldehydes and ketones e.g. Ni(CO)4 reacts with LiR to form an unstable acyl nickel carbonyl complex which can be attacked by electrophiles such as H+ or R Br to give aldehydes or ketones by solvent-induced reductive elimination ... 

Oppenauer oxidation of the enol ether (34) affords the corresponding 17 ketone (37) (the enol ether is stable to the basic oxidation conditions). This ketone affords the corresponding 17a-ethynyl compound on reaction with metal acetylides. Hydrolysis of the enol ether under mild conditions leads directly... 

Ketones are resistant to oxidation by dioxygen in aqueous solutions at T= 300-350 K. Transition metal ions and complexes catalyze their oxidation under mild conditions. The detailed kinetic study of butanone-2 oxidation catalyzed by ferric, cupric, and manganese complexes proved the important role of ketone enolization and one-electron transfer reactions with metal ions in the catalytic oxidation of ketones [190-194],... 

A concerted mechanism has also been discussed [29,30], involving either a 2+2+1 or 3+2 mechanism. To avoid trimolecular reactions this requires an interaction between Rh(I) and silanes prior to the reaction with a ketone. Interaction of silanes not leading to oxidative addition usually requires high-valent metals as we have seen in Chapter 2. The model is shown in Figure 18.16 it proved useful for the explanation of the enantiomers formed in different instances. The formation of a rhodium-carbon bond is included and thus formation of silyl enol ethers remains a viable side-path. 

Oppenauer oxidation of the enol ether (34) affords the corresponding 17 ketone (37) (the enol ether is stable to the basic oxidation conditions). This ketone affords the corresponding 17a-ethynyl compound on reaction with metal acetylides. Hydrolysis of the enol ether under mild conditions leads directly to ethynodrel (39), an orally active progestin. This is the progestational component of the first oral contraceptive to be offered for sale. Treatment of the ethynyl enol ether with strong acid leads to yet another oral progestin employed as a contraceptive, norethindrone (40). ° In practice these and all other so-called combination contraceptives are mixtures of 1-2% mestranol... 

A masked allylic boron unit can be revealed through a transition-metal-catalyzed borylation reaction. For example, a one-pot borylation/allylation tandem process based on the borylation of various ketone-containing allylic acetates has been developed. The intramolecular allylboration step is very slow in DMSO, which is the usual solvent for these borylations of allylic acetates (see Eq. 33). The use of a non-coordinating solvent like toluene is more suitable for the overall process provided that an arsine or phosphine ligand is added to stabilize the active Pd(0) species during the borylation reaction. With cyclic ketones such as 136, the intramolecular allylation provides cis-fused bicyclic products in agreement with the involvement of the usual chairlike transition structure, 137 (Eq. 102). 

Butadiene)zirconocene reacts with metal carbonyls in a similar way as with ketones. Carbon-carbon coupling between a butadiene terminus and the carbonyl carbon atom occurs readily to yield a metallacyclic product, only that generally a metallacyclic n-allyl metallocene system is obtained from the reactions with metal carbonyls.8 Sometimes, O-zirconated Fischer-type carbene complexes are readily formed in this way that cannot be easily obtained by other routes. A typical example is the... 

On the other hand, with heterosubstituted chiral aldehydes, the product distribution for the reaction with methyl ketone enolates is strongly influenced by the nature of the metal, the nature of the heteroatom and its position within the molecule. A chair-like transition state explained the formation of the Felkin adduct, while a boat-like transition state was invoked for the formation of the anti-Felkin adduct. However, this assumption was recently challenged by Roush and coworkers using deuterated pinacolone lithium enolate565. Performing a set of aldolizations with chiral and non chiral aldehydes led these authors to show that the isomeric purity of the enolate correlates almost perfectly with the ratio and pattern of deuterium labeling in the 2,3-an/t-aldol formed consistent with a highly favoured chair-like transition state (Scheme 115). 

These authors used a commercial coarse-ground manganese, which is easily available and cheap. The solvent of choice for Barbier-type reactions with this metal was ethyl ethanoate. Yields of reactions with aliphatic ketones were excellent. In order to get such good yields with aliphatic aldehydes 10% ZnCl2, CdCl2, or HgCl2 had to be added. 

Reactions with metallic reagents appear to proceed normally bis(tri-phenylsilyl) ketone reacted with methyl Grignard reagent to yield the... 

Regio-directed metallations have been used this year to good effect in the synthesis of tetronic acids. Two papers have appeared on the lithiation of the acrylates (8) at the p-position to yield tetronic acids (9 X = H) after reaction with aldehydes, ketones, and esters. " The tetronic acids (9 X = H) can then be lithiated to give (9 X = Li) and further reacted to provide the substituted tetronic acids (9 X = E). " " In this way isomers of the naturally occurring gregatins and aspertetronins have been synthesized. "... 

Isomerization of C9-ketones Ci4-ketones A -bond to A -bond Michael reaction with C9 ketones Reduction with alkali metals of A -bond ... 

The Peterson reaction has two more advantages over the Wittig reaction 1. it is sometimes less vulnerable to sterical hindrance, and 2. groups, which are susceptible to nucleophilic substitution, are not attacked by silylated carbanions. The introduction of a methylene group into a sterically hindered ketone (R.K. Boeckman, Jr., 1973) and the syntheses of olefins with sulfur, selenium, silicon, or tin substituents (D. Seebach, 1973 B.T. Grdbel, 1974, 1977) illustrate useful applications. The reaction is, however, more limited and time consuming than the Wittig reaction, since metallated silicon derivatives are difficult to synthesize and their reactions are rarely stereoselective (T.H. Chan, 1974 ... 

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