2.4- Pentadiene Diels-Alder reactions

Let us finally consider two Z-matrices for optimization to transition structures, the Diels-Alder reaction of butadiene and ethylene, and the [l,5]-hydrogen shift in Z-1,3-pentadiene. To enforce the symmetries of the TSs (Cj in both cases) it is again advantageous to use dummy atoms. 

Yamamoto et al. have reported a chiral helical titanium catalyst, 10, prepared from a binaphthol-derived chiral tetraol and titanium tetraisopropoxide with azeotropic removal of 2-propanol [16] (Scheme 1.22, 1.23, Table 1.9). This is one of the few catalysts which promote the Diels-Alder reaction of a-unsubstituted aldehydes such as acrolein with high enantioselectivity. Acrolein reacts not only with cyclo-pentadiene but also 1,3-cyclohexadiene and l-methoxy-l,3-cyclohexadiene to afford cycloadducts in 96, 81, and 98% ee, respectively. Another noteworthy feature of the titanium catalyst 10 is that the enantioselectivity is not greatly influenced by reaction temperature (96% ee at... 

How can you account for the fact that ct5-l,3-pentadiene is much less reactive than fra/rs-l,3-pentadiene in the Diels-Alder reaction ... 

Pentadiene is much more reactive in Diels-Alder reactions than 2,4-pentadienal. Why might this be ... 

French researchers [38c] have investigated the /zetero-Diels-Alder reaction of methylglyoxylate and glyoxal monoacetal with 2-methyl-1,3-pentadiene in a microwave oven under various reaction conditions (Table 4.9). The microwave (MW) irradiation does not affect the diastereoisomeric ratio of adducts trans/cis = 70 30) but dramatically reduces the reaction time. The glyoxal monoacetal, for instance, gives 82 % adducts after 5 minutes when submitted to irradiation with an incident power (IP) of 600 W in PhH and in the presence of ZnCL (Table 4.9, entry 1), while no reaction occurs if carried out for 4h at 140 °C in sole PhH. Similarly, methylgloxylate in water at 140 °C gives 82% adducts after 3h, whereas microwave irradiation reduces the reaction time to 8 minutes (Table 4.9, entry 5). 

Diels-Alder reaction of dienophiles, N-allylic enamides and a,/l-unsaturated lactam derivatives with open chain and inner ring dienes is promoted by iodine [98]. Thus the cycloaddition of N-benzyl-N-methallyl acrylamide 147 with cyclo-pentadiene (1) proceeds smoothly in DMF at —78 °C in the presence of I2 (2 eq.) to give a prevalence of endo adduct l Vd) in 88% yield (Equation 4.17). 

C-Disaccharide analogs of trehalose were recently [20c] prepared by using as a key step an aqueous Diels-Alder reaction between the sodium salt of glyoxylic acid and the water soluble homochiral glucopyranosil-l,3-pentadiene 19 (Equation 6.1). A mixture of four diastereoisomers in a 41 24 21 14 proportion was obtained after esterification with methanol and acetylation. The main diaster-eoisomer 20 was isolated and characterized as benzoyl-derivative. 

In the same area, a (5)-tryptophan-derived oxazaborolidine including a p-tolylsulfonylamide function has been used by Corey et al. to catalyse the enantioselective Diels-Alder reaction between 2-bromoacrolein and cyclo-pentadiene to form the corresponding chiral product with an unprecedented high (> 99% ee) enantioselectivity (Scheme 5.27)." This highly efficient methodology was extended to various 2-substituted acroleins and dienes such as isoprene and furan. In addition, it was applied to develop a highly efficient total synthesis of the potent antiulcer substance, cassiol, as depicted in Scheme 5.21... 

Stable aryl boronates derived from tartaric acid catalyze the reaction of cyclo-pentadiene with vinyl aldehyde with high selectivity. Chiral acyloxy borane (CAB), derived from tartaric acid, has proved to be a very powerful catalyst for the enantioselective Diels-Alder reaction and hetero Diels-Alder reaction. Scheme 5 23 presents an example of a CAB 73 (R = H) catalyzed Diels-Alder reaction of a-bromo-a,/i-cnal 74 with cyclopentadiene. The reaction product is another important intermediate for prostaglandin synthesis. In the presence of... 

Schafer and coworkers devised a useful synthetic procedure based on this reaction [26]. Thus, the Diels-Alder reaction of /i-silylacrylic acid with cyclo-pentadiene gave the adduct which was oxidized anodically with the elimination of the carboxyl and the silyl groups. Successful formation of norbonadiene indicates that /J-silylacrylic acid can be used an a synthon of acetylene in Diels-Alder reactions with dienes (Scheme 33). 

Diels-Alder reactions with alkynes as dienophiles have been known for a long time. Iminoboranes, however, will more readily cyclodimerize than react with dienes, and even the cyclodimers are generally superior to dienes in the competition for excess iminoborane. Among many attempts, therefore, only two reactions with iminoboranes as dienophiles have been successful, and in both of them the diene is cyclo-pentadiene [Eq. (55)] (9, 14). 

A catalytic asymmetric Diels-Alder reaction was developed by using 3-(3-borylpropenoyl)oxazolidin-2-ones 146. In the reactions of butadiene, isoprene, or 2-methyl-l,3-pentadiene and 146, in the presence of a chiral titanium catalyst 147, the cyclohexene derivatives 148 were formed. 

The material is prepared by Diels-Alder reaction of 1,3-pentadiene and mesityl oxide and subsequent aldol condensation of the resulting acetyl trimethyl cyclohexene with acetaldehyde [99]. 5-Damascone is used in perfumes to create masculine notes. 

For example, in the ring isomerization reaction, methylcyclopentane forms a methylcyclopentene intermediate in its reaction sequence to cyclohexane. The intermediate can also further dehydrogenate to form methylcyclo-pentadiene, a coke precursor. Bakulen et al. (4) states that methylcyclo-pentadiene can undergo a Diels-Alder reaction to form large polynuclear aromatic coke species. Once any olefinic intermediate is formed, it can either go to desired product or dehydrogenate further and polymerize to coke precursors. This results in a selectivity relationship between the desired products and coke formation as shown on the next page. 

Cycloadditions can also be catalyzed by cation radicals generated from aminium salts.537-539 In fact, these are cation-radical chain reactions mimicking Diels-Alder reaction. Interestingly, 2,4-dimethyl-1,3-pentadiene undergoes either a Brpnsted acid-catalyzed cycloaddition [Eq. (6.93)] or cation-radical-catalyzed cycloaddition [Eq. (6.94)] to yield different addition products 539... 

The reactivities of dienes in the Diels-Alder reaction depend on the number and kind of substituents they possess. The larger the substituents are, or the more of them, at the ends of the conjugated system, the slower the reaction is likely to be. There also is a marked difference in reactivity with diene configuration. Thus trans- i, 3-pentadiene is substantially less reactive toward a given dienophile (such as maleic anhydride) than is cis-1,3-pentadiene. In fact,... 

Sustmann and Binsch132 described a method which started from the same point, but invoked the zero-differential-overlap approximation on the other hand, it was not confined to jr-electrons and the perturbation energy was refined iteratively. Using a MINDO parameterization they then applied the method to Diels-Alder reactions, and were able to account for effects which cannot be explained in terms of simple jr-electron theory, such as the preference for endo addition of cyclopropene to cyclo-pentadiene. 

A European patent granted to Quest International Services BV involves use of pyridine derivatives as fragrance materials. 2-Alkyl-substituted pyridines are specifically mentioned, including all possible stereoisomers of 2-(2,4-dimethylcyclohexyl)pyridine 46, which is made from 2-vinylpyridine and 2-methyl-l,3-pentadiene via the Diels-Alder reaction <2006EP01562904>. 

The only paper concerning catalysis by Lewis acids of the Diels-Alder reactions of these simple sulfinyl ethylenes was due to Ronan and Kagan [20], who studied the influence of TMSOTf in the reaction of compound (S)-l with cyclo-pentadiene and furane. In the first case, the reaction occurs at 0°C in 3 h, giving an 89 11 mixture of endo and exo adducts (overall yield 60%) with very high n-facial selectivity (de> 92%). The high efficiency of the catalyst increasing the reactivity of 1 also made possible its reaction with furan, which evolved with low endo/exo selectivity (55 45) and lower 7r-facial selectivity (de 70%) than that observed with cyclopentadiene. These excellent results were nevertheless, eclipsed by those reported in the same paper [20] concerning the activation of... 

Intermolecular cycloaddition reactions constitute an important and convergent route to piperidines and related compounds. The research group of Franklin Davis at Temple University published a novel route to optically active piperidines that proceeded through an imino Diels-Alder reaction with enantiomerically enriched compound 84 (Scheme 16) <02OL655>. On reaction with ftww-l,3-pentadiene, intermediate 85 was produced as a single diastereomer in 89% yield. Hydrogenation of this strained intermediate yielded the 2,6-disubstituted piperidine 86 in 75% yield. 

Both pentadienes are more stable in s-trans conformations. To undergo Diels-Alder reactions, however, they must rotate about the single bond between the double bonds to assume s-cis conformations. 

When cis- 1,3-pentadiene rotates to the s-cis conformation, a steric interaction occurs between the methyl-group protons and a hydrogen on Cl. Since it s more difficult for cis-1,3-pentadiene to assume the s-cis conformation, it is less reactive in the Diels-Alder reaction. 

Diels-Alder reactions are classified as [4 + 2] cycloadditions, and the reaction giving the cyclobutane would be a [2 + 2] cycloaddition. This classification is based on the number of electrons involved. Diels-Alder reactions are not the only [4 + 2] cycloadditions. Conjugated ions like allyl cations, allyl anions and pentadienyl cations are all capable of cycloadditions. Thus, an allyl cation can be a 2-electron component in a [4 + 2] cycloaddition, as in the reaction of the methallyl cation 6.2 derived from its iodide 6.1, with cyclo-pentadiene giving a seven-membered ring cation 6.3. The diene is the 4-electron component. The product eventually isolated is the alkene 6.4, as the result of the loss of the neighbouring proton, the usual fate of a tertiary cation. This cycloaddition is also called a [4 + 3] cycloaddition if you were to count the atoms, but this is a structural feature not an electronic feature. In this chapter it is the number of electrons that counts. 

Oxabicyclo[3.2.0]hepta-l,4,6-triene (289), a planar Sn-electron analog of 4, has been prepared by flow pyrolysis of 288 (both cis and trans) in approximately 10% yield (>95% purity) 289 is an extremely sensitive compound, polymerizing instantaneously on exposure to oxygen. In solution, where it is stable for several days, it slowly dimerizes to give the known ° compound 291 the pentacyclic intermediate 290 is possibly involved. In Diels-Alder reactions, 289 behaves like an olefin with cyclo-pentadiene it reacts immediately to give 292. Hydrogenation occurs at the same site. ... 

Dlels-Alder reactions. A key step in the synthesis of the sesquiterpene d/-pentalenolactone (5) was a Diels-Alder reaction of 2, available from cyclo-pentadiene by several steps in 46% overall yield, with 1. This reaction proceeds in... 

The selenoaldehydes and selenoketones generated in situ by a wide range of methods can generally be trapped with dienes [30, 31, 56, 57, 60-63]. Cyclo-pentadiene has often been used, and the hetero-Diels-Alder reaction proceeds to give endo-adducts as major products. The regioselectivity of the reaction... 

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