Stereoselectivity 1.3- diene synthesis

Kibayashi and co-workers103 implemented the palladium-catalyzed cycloisomerization reaction in a stereoselective total synthesis of enantiomerically pure (+)-streptazolin. The cycloisomerization of enyne 172 to provide diene 173 was remarkably selective when performed in the presence of A,Ar -bis(benzylidene)ethylenediamine (BBEDA) as a ligand and water as a proton source (Scheme 44). 

A useful application of the silver-mediated additions is 1,3 -diene synthesis by three-carbon elongation of aldehydes [48,51,53]. The bimetallic reagent 3-trimethylsilyl-l-propenylzirco-nocene chloride (A Scheme 8.23) reacts with aldehydes under the influence of a catalytic amount of Ag+ to give the intermediate zirconocene-alkoxide B, which then undergoes a Peterson-type 1,4-elimination of TMS alkoxide to stereoselectively afford ( )-dienes (fc/Z > 96 4) (Scheme 8.23). A Wittig reaction yields the same products without stereoselectivity (ca. 1 1 mixtures of E- and Z-isomers). 

Now, dienes with shielded donble bonds can be involved in diene synthesis. The presence of donor gronps at the double bond normally prevents its involvement in conventional Diels-Alder condensations. These reactions do take place with the cation-radicals. Cyclic adducts are formed in high yields (80-90%) and under mild conditions. Polymerization, which usnally decreases the yield is inhibited completely within the framework of the cation-radical variant (Bellville et al. 1981). The stereoselectivity of the addition, which is usually typical for diene condensation, does not change in the cation-radical version and even increases. The positional selectivity also increases. The regiose-lectivity is enhanced, as well. Bauld et al. have discovered and explained these effects (Bellville and Banld 1982, Bellville et al. 1981, 1983, Banld and Pabon 1983, Pabon and Banld 1984). 

Hudlicky et al. (65) reported a formal stereoselective total synthesis of the oxygenated pyrrolizidine alkaloids platynecine (336), dihydroxyheliotridane (337), hastanecine (341), and tumeforcidine (342), involving an intramolecular azide-diene cycloadditions (Scheme 9.65). Intramolecular 1,3-dipolar cycloaddition of... 

Diene synthesis.6 /3-Acetoxy carboxylic acids undergo loss of CH,COOH and C02 when refluxed in T1IF or DMSO in the presence of triethylamine (1 equivalent) and catalytic amounts of Pd(0). This fragmentation is highly stereoselective the (F.)-alkene is formed predominately, irrespective of the stereochemistry of the substrate. The method is particularly useful for stereocontrolled synthesis of 1,3-dicnes from stereoisomeric mixtures. 

Johnson et al. used their newly developed orthoester Claisen reaction to achieve a highly stereoselective total synthesis of aM-trans squalene (5)1 (Scheme 1.20. The diene diol 6 underwent Johnson-Claisen rearrangement when it was heated with ethyl orthoacetate in the presence of propionic acid for 3 h at 138 C. The diene dialdehyde 7, obtained by treatment of the resulting ester with lithium aluminum hydride followed by oxidation with Collins reagent, reacted with 2-propenyllithium to give the tetraene diol 8. The tetraene dialdehyde 9, which... 

A highly stereoselective total synthesis of racemic sesquicarene, a sesquiterpene analogous to d -carene was accomplished by the photochemical transformation of a bicyclo[3.3.2]nona-3,6-dien-2-one. ... 

Al-Badri, H.. About-Jaudet. E.. and Collignon, N., Unusual and efficient (Z)-stereoselective Peterson synthesis of 2-diethoxyphosphonyl-l-alkoxy-3-methylpenta-l,3-dienes. Their use in the Diels-Alder reaction. Tetrahedron Lett.. 31. 2951, 1996. 

A new and highly stereoselective total synthesis of the 13 -ethyl gonane (448) which used a Stork isoxazole annelation sequence on the diene (449) has been intimated. 

Reviews.—Recent reviews involving olefin chemistry include olefin reactions catalysed by transition-metal compounds, transition-metal complexes of olefins and acetylenes, transition-metal-catalysed homogeneous olefin disproportionation, rhodium(i)-catalysed isomerization of linear butenes, catalytic olefin disproportionation, the syn and anti steric course in bi-molecular olefin-forming eliminations, isotope-elfect studies of elimination reactions, chloro-olefinannelation, Friedel-Crafts acylation of alkenes, diene synthesis by boronate fragmentation, reaction of electron-rich olefins with proton-active compounds, stereoselectivity of carbene intermediates in cycloaddition to olefins, hydrocarbon separations using silver(i) systems, oxidation of olefins with mercuric salts, olefin oxidation and related reactions with Group VIII noble-metal compounds, epoxidation of olefins... 

One reason why the azo Diels-Alder has not yet been more popular for the stereoselective total synthesis of nitrogen-containing natural products may be because until recently the only asymmetric version relied on the use of chiral dienes. There were neither an azo dienophile bearing a chiral auxiliary able to induce a useful diastereoselectivity nor an enantioselective catalytic reaction until 2006. That year, Yamamoto and co-workers reported on a highly enantioselective copper-catalyzed cycloaddition of a... 

The early Escherunoser-Stork results indicated, that stereoselective cyclizations may be achieved, if monocyclic olefins with 1,5-polyene side chains are used as substrates in acid treatment. This assumption has now been justified by many syntheses of polycyclic systems. A typical example synthesis is given with the last reaction. The cyclization of a trideca-3,7-dien-11-ynyl cyclopentenol leads in 70% yield to a 17-acetyl A-norsteroid with correct stereochemistry at all ring junctions. Ozonolysis of ring A and aldol condensation gave dl-progesterone (M.B. Gravestock, 1978 see p. 279f.). 

Diacetoxylation of various conjugated dienes including cyclic dienes has been extensively studied. 1,3-Cyclohexadiene was converted into a mixture of isomeric l,4-diacetoxy-2-cyclohexenes of unknown stereochemistry[303]. The stereoselective Pd-catalyzed 1,4-diacetoxylation of dienes is carried out in AcOH in the presence of LiOAc and /or LiCI and beiizoquinone[304.305]. In the presence of acetate ion and in the absence of chloride ion, /rau.v-diacetox-ylation occurs, whereas addition of a catalytic amount of LiCl changes the stereochemistry to cis addition. The coordination of a chloride ion to Pd makes the cis migration of the acetate from Pd impossible. From 1,3-cyclohexadiene, trans- and ci j-l,4-diacetoxy-2-cyclohexenes (346 and 347) can be prepared stereoselectively. For the 6-substituted 1,3-cycloheptadiene 348, a high diaster-eoselectivity is observed. The stereoselective cij-diacetoxylation of 5-carbo-methoxy-1,3-cyclohexadiene (349) has been applied to the synthesis of dl-shikimic acid (350). 

The coupling of alkenylboranes with alkenyl halides is particularly useful for the stereoselective synthesis of conjugated dienes of the four possible double bond isomers[499]. The E and Z forms of vinylboron compounds can be prepared by hydroboration of alkynes and haloalkynes, and their reaction with ( ) or (Z)-vinyl iodides or bromides proceeds without isomerization, and the conjugated dienes of four possible isomeric forms can be prepared in high purity. 

Conjugated dienes, upon complexation with metal carbonyl complexes, are activated for Friedel-Crafts acylation reaction at the akyhc position. Such reactions are increasingly being used in the stereoselective synthesis of acylated dienes. Friedel-Crafts acetylation of... 

Cycloaddition involves the combination of two molecules in such a way that a new ring is formed. The principles of conservation of orbital symmetry also apply to concerted cycloaddition reactions and to the reverse, concerted fragmentation of one molecule into two or more smaller components (cycloreversion). The most important cycloaddition reaction from the point of view of synthesis is the Diels-Alder reaction. This reaction has been the object of extensive theoretical and mechanistic study, as well as synthetic application. The Diels-Alder reaction is the addition of an alkene to a diene to form a cyclohexene. It is called a [47t + 27c]-cycloaddition reaction because four tc electrons from the diene and the two n electrons from the alkene (which is called the dienophile) are directly involved in the bonding change. For most systems, the reactivity pattern, regioselectivity, and stereoselectivity are consistent with describing the reaction as a concerted process. In particular, the reaction is a stereospecific syn (suprafacial) addition with respect to both the alkene and the diene. This stereospecificity has been demonstrated with many substituted dienes and alkenes and also holds for the simplest possible example of the reaction, that of ethylene with butadiene ... 

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