Carbonyl addition reaction

A wide range of carbonyl addition reactions is available to the polymer synthesis chemist. To the extent that reactants having functionalities of two or higher are available, these reactions may be suitable for polycondensation. A simplified scheme is 

The formation of an amide by the reaction of an ester with an amine will illustrate this sequence more specifically, viz. 

A reaction in which the attacking agent Y carries no hydrogen on the Y can be illustrated by the reaction of a phenoxide ion with an acid chloride 

One can outline a similar sequence for the reaction of internal anhydrides , such as isocyanates or ketenes 

In this case, no X has been eliminated, taking the pair of electrons which had been in the C—X bond orbitals. Somewhat analogously, however, one pair of electrons from the carbon—nitrogen double bond has been eliminated from the orbitals shared by carbon, being displaced to the nitrogen. A similar sequence can be written for ketenes. 

In landmark studies involving the determination of the relative configuration of carbohydrates, Emil Fischer reported in 1889 that the homologation of D-(-t-)-mannose (1) with cyanide gave a single diastereomeric adduct (Equation 1) [34]. Following hydrolysis of the nitrile, heptonic acid 2 was isolated in 87 % yield. This is perhaps the earliest example of acyclic substrate control in diastereoselective carbonyl addition reactions. 

Classics in Stereoselective Synthesis. Erick M. Carreira and Lisbel Kvaerno Copyright 2009 WILEY-VCH Verlag GmbH Co. KCaA. Weinheim ISBN 978-3-527-32452-1 (Hardcover) 

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In general terms, there are three possible mechanisms for addition of a nucleophile and a proton to give a tetrahedral intermediate in a carbonyl addition reaction. 

Enolates can also serve as carbon nucleophiles in carbonyl addition reactions. The addition reaction of enolates with carbonyl compounds is of very broad scope and is of great synthetic importance. Essentially all of the enolates considered in Chapter 7 are capable of adding to carbonyl groups. The reaction is known as the generalized aldol addition. 

Reductions by NaBKt are characterized by low enthalpies of activation (8-13kcal/mol) and large negative entropies of activation (—28 to —40eu). Aldehydes are substantially more reactive than ketones, as can be seen by comparison of the rate data for benzaldehyde and acetophenone. This relative reactivity is characteristic of nearly all carbonyl addition reactions. The reduced reactivity of ketones is attributed primarily to steric effects. Not only does the additional substituent increase the steric restrictions to approach of the nucleophile, but it also causes larger steric interaction in the tetrahedral product as the hybridization changes from trigonal to tetrahedral. 

The borohydride reduction rate data are paralleled by the rate data for many other carbonyl addition reactions. In fact, for a series of ketones, most of which are cyclic, a linear free-energy correlation of the form... 

There are a number of powerful synthetic reactions which join two trigonal carbons to form a CC single bond in a stereocontrolled way under proper reaction conditions. Included in this group are the aldol, Michael, Claisen rearrangement, ene and metalloallyl-carbonyl addition reactions. The corresponding transforms are powerfully stereosimplifying, especially when rendered enantioselective as well as diastereoselective by the use of chiral controller groups. Some examples are listed in Chart 20. 

The oral contraceptive agent Mestranol is synthesized using a carbonyl addition reaction like that shown in Problem 8.42. Draw the structure of the ketone needed. 

The reduction of carbonyl compounds by reaction with hydride reagents (H -) and the Grignard addition by reaction with organomagnesium halides (R - +MgBr) are examples of nucleophilic carbonyl addition reactions. What analogous product do you think might result from reaction of cyanide ion with a ketone ... 

Coniine, molecular model of. 28 structure of, 294 Conjugate acid, 49 Conjugate base, 49 Conjugate carbonyl addition reaction, 725-729 amines and, 727 enamines and, 897-898 Gilman reagents and, 728-729 mechanism of, 725-726 Michael reactions and, 894-895 water and. 727 Conjugated diene, 482... 

Claisen rearrangement, 660 conjugate carbonyl addition reaction, 725-726 Curtius rearrangement, 935 cyanohydrin formation, 707 dichlorocarbene formation, 227 Dieckmann cyclization reaction, 892-893... 

Johnson s classic synthesis of progesterone (1) commences with the reaction of 2-methacrolein (22) with the Grignard reagent derived from l-bromo-3-pentyne to give ally lie alcohol 20 (see Scheme 3a). It is inconsequential that 20 is produced in racemic form because treatment of 20 with triethyl orthoacetate and a catalytic amount of propionic acid at 138 °C furnishes 18 in an overall yield of 55 % through a process that sacrifices the stereogenic center created in the carbonyl addition reaction. In the presence of propionic acid, allylic alcohol 20 and triethyl orthoacetate combine to give... 

The synthetic problem has now been substantially simplified. Retrosynthetic cleavage of the indicated carbon-carbon bond in 24 provides aldehyde 25 as a potential precursor. A simple carbonyl addition reaction could bring about the conversion of the latter substance to the former. Compound 25 could, in turn, be fashioned in a few straightforward steps from prochiral diol 26. 

When y-lactone 14 is treated with methylmagnesium bromide in THF at -78 °C, a carbonyl addition reaction takes place and gives, after aqueous workup, a hemiketal that is subsequently converted to... 

Ketone 13 possesses the requisite structural features for an a-chelation-controlled carbonyl addition reaction.9-11 Treatment of 13 with 3-methyl-3-butenylmagnesium bromide leads, through the intermediacy of a five-membered chelate, to the formation of intermediate 12 together with a small amount of the C-12 epimer. The degree of stereoselectivity (ca. 50 1 in favor of the desired compound 12) exhibited in this substrate-stereocontrolled addition reaction is exceptional. It is instructive to note that sequential treatment of lactone 14 with 3-methyl-3-butenylmagnesium bromide and tert-butyldimethylsilyl chloride, followed by exposure of the resultant ketone to methylmagnesium bromide, produces the C-12 epimer of intermediate 12 with the same 50 1 stereoselectivity. 

The completion of the synthesis of the polyol glycoside subunit 7 requires construction of the fully substituted stereocenter at C-10 and a stereocontrolled dihydroxylation of the C3-C4 geminally-disub-stituted olefin (see Scheme 10). The action of methyllithium on Af-methoxy-Af-methylamide 50) furnishes a methyl ketone which is subsequently converted into intermediate 10 through oxidative removal of the /j-methoxybenzyl protecting group with DDQ. Intermediate 10 is produced in an overall yield of 83 % from 50) , and is a suitable substrate for an a-chelation-controlled carbonyl addition reaction.18 When intermediate 10 is exposed to three equivalents of... 

Scheme 20. The intramolecular carbonyl addition reaction used by Danishefsky and coworkers to construct a 10-membered ring enediyne system.

The carbonyl addition reactions of benzylmetals, compared to the allylic counterparts, have found few applications in stereoselective synthesis, apparently for the following reasons The carbonyl addition of alkali metal salts (M = Li, Na, K, Cs) of benzyl anions, with few exceptions, usually proceeds with low levels of simple diastereoselectivity affording mixtures of syn- or <7 / -diastereomers (see Section 1.3.2.3.1.). 

Thus, the allyllithium, -sodium or -potassium derivatives are the ones which are most easily generated (Section D.1.3.3.3.1.1.), but they are of limited value in stereoselective carbonyl addition reactions. Usually these reagents need to be tuned" in their reactivity by metal exchange prior to application in order to achieve high selectivities. 

Lewis acid catalyzed carbonyl addition reactions of nonracemic chiral allylsilanes34 were shown to proceed with anti-S E attack, thus also enabling 1,3-chirality transfer in an opposite direction (Section D.l. 3.3.3.5.2.3.). 

The intention of this section is to assist the potential user to choose the optimal allylmetal reagent in carbonyl addition reactions. 

Synthon Reagent Section D. Describing Carbonyl Addition Reactions With ... 

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