A -Cyclopentenones

Upon treatment of a divinyl ketone 1 with a protic acid or a Lewis acid, an electrocyclic ring closure can take place to yield a cyclopentenone 3. This reaction is called the Nazarov cyclization Protonation at the carbonyl oxygen of the divinyl ketone 1 leads to formation of a hydroxypentadienyl cation 2, which can undergo a thermally allowed, conrotatory electrocyclic ring closure reaction to give a cyclopentenyl cation 4. Through subsequent loss of a proton a mixture of isomeric cyclopentenones 5 and 6 is obtained ... 

A variant of the Nazarov reaction is the cyclization of allyl vinyl ketones 8. These will first react by double bond isomerization to give divinyl ketones, and then cyclize to yield a cyclopentenone 9 bearing an additional methyl substituent ... 

The reaction of an alkyne 1 and an alkene 2 in the presence of dicobaltoctacar-bonyl to yield a cyclopentenone 3 is referred to as the Pauson-Khand reaction Formally it is a [2 + 2 + 1 ]-cycloaddition reaction. The dicobaltoctacarbonyl acts as coordinating agent as well as a source of carbon monoxide. 

Initial step is the formation of a dicobalthexacarbonyl-alkyne complex 5 by reaction of alkyne 1 with dicobaltoctacarbonyl 4 with concomitant loss of two molecules of CO. Complex 5 has been shown to be an intermediate by independent synthesis. It is likely that complex 5 coordinates to the alkene 2. Insertion of carbon monoxide then leads to formation of a cyclopentenone complex 6, which decomposes into dicobalthexacarbonyl and cyclopentenone 3 ... 

An intramolecular version of enolate Michael addition to enantiomerically pure vinylic sulfoxides is represented by reaction of a cyclopentenone sulfoxide with dichloroketene (Scheme 5)90 this type of additive Pummerer rearrangement has been developed by Marino and coworkers91 into a highly effective way of constructing variously substituted lactones in very high enantiomeric purity (equation 43). 

The dialkylamino, especially the dimethylamino, group in a cyclopentenone of type 67 can be alkylated with methyl iodide to yield a quaternary ammonium salt. Upon treatment with a base, these quaternary ammonium salts undergo... 

This reaction can be used to effect a [3 + 2] or a [3 + 2 + 2] annelation to a cyclopentenone ketal or a cycloheptadienone ketal, respectively. Thus the adduct of a vinylcuprate with 1 rearranges thermally (240-290°) to 3-cyclopentenone ketals (3) in 50-80% yield (equation I). [3 + 2 + 2]Annelation involves preparation of... 

Reaction of 4a with furan also proceeds in HF1P containing hydrogen chloride at 0 °C to yield a cyclopentenone product 26 as well as the products obtained in the reaction with Lewis acid, 23 and 24 (entries 7-9). The formation of cyclopentenone product 26 did not occur when less than one equivalent of furan was employed a simple cyclopentenone product 25 was obtained instead (entry 7). Addition of THF also retarded the formation of 26 in the reaction in HFIP as solvent with an increasing yield of 25 (entry 10). Preferential formation of the [4 + 3] cycloadduct 23 was observed without formation of 26 in the reaction of 4b in HFIP (entries 11 and 12) as was observed with Lewis acid in dichloromethane (entries 3-5). Reaction of 4c in HFIP gave 26 (entry 13), with a product distribution similar to that of 4a in HFIP. 

Conversion of a Co2(CO)6-alkyne complex into a cyclopentenone is the Pauson-Khand reaction. It proceeds by loss of CO from one Co to make a 16-electron complex, coordination and insertion of the C6=C7 K bond into the C2-Co bond to make the C2-C6 bond and a C7-Co bond, migratory insertion of CO into the C7-Co bond to make the C7-C8 bond, reductive elimination of the C1-C8 bond from Co, and decomplexation of the other Co from the C1=C2 k bond. The mechanism is discussed in the text (Section B.l.f). 

Scheme 3 illustrates retrosynthetic analysis of the E and F series of PGs. The widely used Corey synthesis (2) takes notice of the presence of the two olefinic bonds in the side chains of PGF2a. The actual synthesis consists of a two-fold Wittig-type chain extension of a chiral dialdehyde equivalent with four defined stereogenic centers derived from cyclopentadiene via a series of bicyclic intermediates. A similar sequential synthesis has been developed at Upjohn Co. (la). These chemical syntheses are much more economical than enzymatic methods and are used for commercial synthesis of certain PGs. An alternative pathway pioneered by Sih is the conjugate addition approach (3). Nucleophilic addition of an E-olefinic co side-chain unit to a cyclopentenone in which the a side chain is already installed leads directly to PGE-type compounds. Untch and Stork used an co chain unit with a Z-olefinic bond (4). The most direct and flexible synthesis is the convergent three-component coupling synthesis via consecutive linking of the two side chains to unsubstituted 4-hydroxy-2-cyclopentenone derivatives (5, 6). 

Thermolysis of an allyl-cyclopropyl carbyne complex under the mild conditions used for the acyl carbynes did not result in an oxymetallacycle or a cyclopentenone. Instead, 2-cyclohexenone-5-spirocyclopropane was obtained in low yields (5%) together with moderate yields (43%) of the open-chain (3-allyl V-pentadienal) molybdenum complex (equation 104)163. 

The [2+2+1] cycloaddition of an alkene, an alkyne and carbon monoxide is commonly known as the Pauson-Khand reaction. This transformation has been adopted many times in the synthesis of complex natural products and related compounds, which contain a cyclopentenone moiety, for example, prostaglandins. Two independent reports of this reaction appeared almost simultaneously in late 2002 by Iqbal and co-workers25 and Fisher and co-workers26, respectively. They not only used very similar substrate systems in their studies, but they also reached very similar conclusions Toluene was found to be the preferred solvent in this reaction, even though it is a very poor microwave absorber. A reaction time between 5 and 10 min, using dicob alto ctacar-bonyl or dicobalthexacarbonyl as the carbon monoxide source, and a temperature of 100-120°C resulted in high yields of the products. Fisher and co-workers used 20 mol% Co2(CO)8 and cyclohexylamine as an additive (Scheme 5.12), since this system had been used previously in order to allow a catalytic reaction. Iqbal and co-workers did not use cyclohexylamine, but instead used 1 equiv. of the carbon monoxide (Co2(CO)6) source. In both reports, the products were formed in 40-70% yield. 

The synthetically most useful reaction of this type is the Nazarov cyclization, in which a cross-conjugated dienone like 4.89 forms a cyclopentenone 4.92 when treated with acid, in this case a Lewis acid. 

In the Weiss reaction (Scheme 4), an 7-dicarbonyl compound (38) condenses with two molecules of dimethyl 3-oxoglutarate (39 E = CC Me) to give a c w-bicyclo [3.3.0] oct-ane-3,7-dione tetraester (40) the one-pot reaction produces considerable complexity, with the sequential formation of four C—C bonds. Simple acid treatment removes the carbomethoxy groups, if deshed. While die reaction involves aldol and Michael sequences, die intermediacy of a cyclopentenone [4-hydroxycyclopent-2-enone (41)] has up to now been unproven. A series of such 1 1 adducts has now been reported for a variety of diketones, together with evidence diat diey are indeed intermediates en route to the bicyclo system.62 Electronic and steric effects on the reaction are also discussed in detail. 

CO)4(acetone). This complex reacts with an enyne such as 1 in toluene at 145° under 55 psi of CO to form a cyclopentenone (2) in high yield. 

Cycloaddition under thermolytic conditions is another route to tricyclic /3-lactams. The 1,3-dipolar cycloaddition of oxazolidinone 98 with /V-phenylmaleimide to give 100 has been described (see Section 2.04.6.3). In a sealed tube at 100 °C the oxazolidinone 98 reacts with a cyclopentenone derivative to give the tricyclic isomers 378 and 379 in the yield ratio of 4 1 (Equation 52) <1999JHC1365>. 

Herz and Iyer have proposed an a-cleavage mechanism with the intermediacy of a cyclopropyl ketene for formation of the polycyclic acetal 42 from photolysis of the rigid cyclopentenone 4339 The cleavage reaction is thought to occur via an n,7r triplet state of unusually high energy for a cyclopentenone (75 kcal/mole). 

Similarly, a mixture of xylose and lysine monohydrochloride in water at an initial pH of 4.6 led to the yellow bicyclic compound 18,173 in which a pyrrole ring is linked to a cyclopentenone, the latter being produced here in an aqueous medium (cf. above). 

Sesquiterpenes containing either a methylene-y-lactone or a cyclopentenone moiety can react with thiol groups to form a covalent linkage. If the thiol group is on a key enzyme, interaction with artemisinin could inactivate the enzyme, disrupting metabolism. Cysteine is a good antidote for artemisinin as a phytotoxin, but there is no evidence that it is due to a direct interaction of the two molecules.15... 

The iodonium triflate (460 mg, 1 mmol) was added to a stirred slurry of anhydrous sodium p-toluene sulphinate (180 mg, 1.01 mmol) in dichloromethane (15 ml) at 20°C under nitrogen. After 15 min water (10 ml) was added and the phases were separated the aqueous layer was extracted with additional dichloromethane (2 x 5 ml), and the combined organic extracts were dried. The filtered solution was treated with hexanes (30 ml) and concentrated. The solid residue was purified by radial chromatography (silica gel, 200-400 mesh, dichloromethane-hexanes) to afford 3-tosyl-bicyclo[3.2.0]-3-heptene-2-one (197 mg, 75%), m.p. 164-165°C. The method is general for the preparation of sulphones with a cyclopentenone moiety other alkenyl iodonium salts gave alkynyl sulphones with sulphinates (Section 9.4.4). 

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