Alcohols carbonyl reductions

Preparation of Alcohols by Reduction of Carbonyl Functional Groups... 

Table 17 2 summarizes the reactions of aldehydes and ketones that you ve seen m ear her chapters All are valuable tools to the synthetic chemist Carbonyl groups provide access to hydrocarbons by Clemmensen or Wolff-Kishner reduction (Section 12 8) to alcohols by reduction (Section 15 2) or by reaction with Grignard or organolithmm reagents (Sections 14 6 and 14 7)... 

Carbonyl reduction begins to compete with olefin saturation when the double bond is hindered or the carbonyl is aromatic or an aromatic vinylog. In conjugated systems, deoxygenation may occur via an intermediate allylic alcohol (51). 

Problem 17.8 What carbonyl compounds give- the following alcohols on reduction with LiAlH4 Show all possibilities. 

That molecule is then subjected to the standard carbonyl reduction, Birch reaction, oxidation, ethynylation and, finally, hydrolysis sequence (see 50 to 53). Hydrolysis of the enol ether under more strenuous conditions than was employed with 53 gives the conjugated ketone 65. The carbonyl group is then reduced to afford the corresponding 3p-alcohol (66). Exhaustive acetylation affords the potent oral progestin methynodiol diacetate (67). 

The carbonyl reductases catalyze reduction of aldehydes and ketones by reduced pyridine nucleotides (NADH and/or NADPH). As mentioned earlier, alcohol dehydrogenase can perform this function in the presence of a high ratio of NADH to NAD+. Other enzymes capable of carbonyl reduction include the aldehyde and ketone reductases. The aldehyde and ketone reductases have a ubiquitous species distribution, with the enzymes present in organisms ranging from bacteria to vertebrates. The mammalian carbonyl reductases have been extensively reviewed (101). 

The superfluous carbonyl oxygen atom was removed by carbonyl reduction to provide the alcohol 171, subsequent Chugaev elimination (via 172 to 173) and double bond hydrogenation with in situ generated diimide (Scheme 27) [94]. The isopropenyl double bond was finally re-established by reductive cleavage of the a-bromo ether unit in 173 to afford the fully functionalized enantiomerically pure A-ring building block (162). 

Complex hydrides can be used for the selective reduction of the carbonyl group although some of them, especially lithium aluminum hydride, may reduce the a, -conjugated double bond as well. Crotonaldehyde was converted to crotyl alcohol by reduction with lithium aluminum hydride [55], magnesium aluminum hydride [577], lithium borohydride [750], sodium boro-hydride [751], sodium trimethoxyborohydride [99], diphenylstarmane [114] and 9-borabicyclo[3,3,l]nonane [764]. A dependable way to convert a, -un-saturated aldehydes to unsaturated alcohols is the Meerwein-Ponndorf reduction [765]. 

The Tafel rearrangement only occurs in acid medium. Simultaneous reduction of both carbonyl groups leads to interaction and formation of a cyclopropane. Acid catalysed cyclopropane ring opening follows to yield an a-diketone 28 which undergoes the electrochemical Clemmensen reduction step to the hydrocarbon. Side products include the two monoketones derived by partial deoxygenation of the a-diketone and the secondary alcohols from reduction of these raonoketones. Separate experiments show that the a-diketone 28 can be reduced to the hydrocarbon. 

Benzo[e]thieno[3,2- ]thiepin-10(5Ef)-one 388 can be smoothly reduced with sodium borohydride to the corresponding alcohol, which forms the chloro substituted compound under standard treatment with thionyl chloride (1991CPB2564). Dihydro derivatives of pyrrolo-benzothiazepine 377 have been reported starting from ketone 373 by a carbonyl reduction, bromination and amination sequence (Scheme 76, Section 5.1.1 (1998JMC3763, 2002JMC344, 2004JMC143)). 

Selective catalytic hydrogenation with chromium-promoted Raney nickel is reported (e.g. citral and citronellal to citronellol) NaHCr2(CO)io and KHFe(CO)4 reduction of a/3-unsaturated ketones (e.g. citral to citronellal) has been described (cf. Vol. 7, p. 7). The full paper on selective carbonyl reductions on alumina (Vol. 7, p. 7) has been published." Dehydrogenation of monoterpenoid alcohols over liquid-metal catalysts gives aldehydes and ketones in useful yields. ... 

Reduction Carbonyl groups. The carbonyl group (-(C=0)-) is reduced through a reaction that is catalyzed by an aldo-keto reductase requiring NADH as a cofactor. A large number of aromatic and aliphatic ketones are reduced to the corresponding alcohols these reductions are frequently stereospecific. a,P-Unsaturated ketones are typically metabolized to saturated alcohols. 

Table 7.1. Preparation of alcohols by reduction of carbonyl compounds.

In some circumstances, the production of a 2-halo alcohol by reduction of the carbonyl group of an a-halo ketone with metal hydrides is a useful synthetic reaction ... 

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