Annulations Robinson

SCHEME 1.12 Amino acid salt-catalyzed intramolecular Robinson annulation. 

FIGURE 1.2 Design of enamine-iminium cascade catalysis. 

2 Examples of [4+2] Reactions with Enamine-Activated Dienes It is well known that Diels-Alder reactions can usually be regarded as double Michael 

SCHEME 1.13 Design of an enamine-iminium cascade with enones. 

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Tran orm-based or long-range strategies The retrosynthetic analysis is directed toward the application of powerful synthesis transforms. Functional groups are introduced into the target compound in order to establish the retion of a certain goal transform (e.g., the transform for the Diels-Alder reaction, Robinson annulation, Birch reduction, halolactonization, etc.). 

Robinson Annulation Sequential Michael addition/aldol condensation between a ketone enolate and an alkyl vinyl ketone (i.e. MVK) to give a cyclohex-2-en-l-one... 

The 5-oxohexanal 27 is prepared by the following three-step procedure (1) 1,2-addition of allylmagnesium bromide to an a, / -unsaturated aldehyde to give the 3-hydroxy-1,5-diene 25, (2) oxy-Cope rearrangement of 25 to give 26, and (3) palladium catalyzed oxidation to afford 27. The method was applied to the synthesis of A -2-octalone (28), which is difficult to prepare by the Robinson annulation[25]. 

The synthesis of cyclohexenone derivatives by Michael addition followed by intramolec ular aldol condensation is called the Robinson annulation, after Sir Robert Robinson who popularized its use By annulatwn we mean the building of a ring onto some start mg molecule (The alternative spelling annelation is also often used)... 

FUJIMOTO - BELLEAU Cyclohexenone Synthesis Synthesis of fused cyclohexenones from lactones (an alternative to the Robinson annulation). 

Me02C xb Robinson Annulation (Aldol + Michael) MeOjC O Me ... 

Robinson annulation (Section 18.13) A combination of conjugate addition of an enolate anion to an a,p-unsaturated ketone with subsequent intramolecular aldol condensation. 

Robinson annulation (Section 18.13) The combination of a Michael addition and an intramolecular aldol condensation used as a synthetic method for ring formation. 

Comparison witli tlie Hajos-Parrisb asymmetric version of tlie Robinson annulation [81] iSdieme 7.25iaj) shows tlie following distinct differences between tlie two metliods. Firstly, tlie cydoalkenone in tlie CuiOTf)2/ligand 18-catalyzed procedure is tlie Midiael acceptor, whereas tlie cydoalkanone is tlie Midiad donor in tlie proline-mediated annulation. Secondly, tlie asymmetric induction occurs in tlie 1,4-addition step in tlie new metliod, in contrast to tlie asymmetric aldol-cydization in tlie Hajos-Parrisb procedure. 

The reaction of a cyclic ketone—e.g. cyclohexanone 1—with methyl vinyl ketone 2 resulting in a ring closure to yield a bicyclic a ,/3-unsaturated ketone 4, is called the Robinson annulation This reaction has found wide application in the synthesis of terpenes, and especially of steroids. Mechanistically the Robinson annulation consists of two consecutive reactions, a Michael addition followed by an Aldol reaction. Initially, upon treatment with a base, the cyclic ketone 1 is deprotonated to give an enolate, which undergoes a conjugate addition to the methyl vinyl ketone, i.e. a Michael addition, to give a 1,5-diketone 3 ... 

Besides a polymerization of the Michael acceptor, a double alkylation of the starting ketone, by reaction with a second Michael acceptor molecule, may take place as a side reaction, and thus further reduce the yield. The polymerization of the enone 2 as well as the double alkylation of the starting ketone can be avoided by application of a modern procedure for the Robinson annulation that uses an organotin triflate as catalyst." ... 

From a stereochemical point of view the Robinson annulation can be a highly complex reaction, since the configuration at five stereogenic sp -carbon centers... 

Since an annulated six-membered carbocycle is a common structural element of natural products, the Robinson annulation is an important reaction in organic synthesis. 

Davis and co-workers have carried out the first examples of the Knoevenagel condensation and Robinson annulation reactions [61] in the ionic liquid [HMIM][PFg] (HMIM = l-hexyl-3-methylimidazolium) (Scheme 5.1-33). The Knoevenagel condensation involved the treatment of propane-1,3-dinitrile with a base (glycine) to generate an anion. This anion added to benzaldehyde and, after loss of a water molecule, gave l,l-dicyano-2-phenylethene. The product was separated from the ionic liquid by extraction with toluene. 

Scheme 5.1-33 The Knoevenagel condensation and the Robinson annulation in [HMIM][PFg],...

The Robinson annulation of ethyl acetoacetate and trans-chalcone proceeded smoothly to give 6-ethoxycarbonyl-3,5-diphenyl-2-cyclohexenone in 48 % yield. The product was separated from the ionic liquid by solvent extraction with toluene. In both these reactions, the ionic liquid [HMIM][PF6] was recycled and reused with no reduction in the product yield. 

Carbonyl condensation reactions are perhaps the most versatile methods available for synthesizing complex molecules. By putting a few fundamental reactions together in the proper sequence, some remarkably useful transformations can be carried out. One such example is the Robinson annulation reaction for tire synthesis of polycyclic molecules. The word annulation comes from the Latin annulus, meaning "ring," so an annulation reaction builds a new ring onto a molecule. 

The Robinson annulation is a two-step process that combines a Michael reaction with an intramolecular aldol reaction. It takes place between a nucleophilic donor, such as a /3-keto ester, an enamine, or a /3-diketone, and an a,/3-unsaturated ketone acceptor, such as 3-buten-2-one. The product is a substituted 2-cyclohexenone. 

The first step of the Robinson annulation is simply a Michael reaction. An enamine or an enolate ion from a jS-keto ester or /3-diketone effects a conjugate addition to an a-,/3-unsaturated ketone, yielding a 1,5-diketone. But as we saw in Section 23.6,1,5-diketones undergo intramolecular aldol condensation to yield cyclohexenones when treated with base. Thus, the final product contains a six-membered ring, and an annulation has been accomplished. An example occurs during the commercial synthesis of the steroid hormone estrone (figure 23.9). 

In this example, the /3-diketone 2-methyJ-l,3-cyclopentanedione is used to generate the enolate ion required for Michael reaction and an aryl-substituted a,/3-unsaturated ketone is used as the acceptor. Base-catalyzed Michael reaction between the two partners yields an intermediate triketone, which then cyclizes in an intramolecular aldol condensation to give a Robinson annulation product. Several further transformations are required to complete the synthesis of estrone. 

Figure 23.9 This Robinson annulation reaction is used in the commercial synthesis of the steroid hormone estrone. The nucleophilic donor is a /3-diketone.

Problem 23.21 What product would you expect from a Robinson annulation reaction of 2-methyl-1,3-cyclopentanedioiie with 3-buten-2-one ... 

Problem 23.22 How would you prepare the following compound using a Robinson annulation reaction between a jS-diketone and an, /3-unsaturated ketone Draw the structures of both reactants and the intermediate Michael addition product. 

The following molecule was formed by a Robinson annulation reaction. What reactants were used ... 

Robinson annulation reaction (Section 23.12) A synthesis of cyclohexenones by sequential Michael reaction and intramolecular aldol reaction. 

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