Dienes ozonolysis

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.). 

Ebdon and coworkers22 "232 have reported telechelic synthesis by a process that involves copolymerizing butadiene or acetylene derivatives to form polymers with internal unsaturation. Ozonolysis of these polymers yields di-end functional polymers. The a,o>dicarboxy1ic acid telechelic was prepared from poly(S-s tot-B) (Scheme 7.19). Precautions were necessary to stop degradation of the PS chains during ozonolysis. 28 The presence of pendant carboxylic acid groups, formed by ozonolysis of 1,2-diene units, was not reported. 

The concept of using diazaquinones for diene system protection was accomplished in the case of some vitamin D derivatives, as shown in Scheme 37 (86JOC4819). Acetyl vitamin D2152 was protected with phtha-lazinedione 83a, providing a mixture of both possible stereoisomeric adducts from which 153 was isolated. Then usual ozonolysis procedure afforded aldehyde 154, which after the Wittig coupling and hydrogenation provided 155. The most difficult part of the sequence proved to be the deprotection of this compound, but this transformation was accomplished... 

Isolated double bonds can be oxidatively cleaved in systems containing a conjugated diene moiety if it is protected as a tricarbonyl(diene)iron complex44. Dienal 39 was acquired in 49% yield by a two-step osmylation-periodate cleavage sequence (equation 27). In contrast, ozonolysis of the polyene complexes is reported to lead to destruction of the complex. 

As with many polymers, polyisoprene exhibits non-Newtonian flow behavior at shear rates normally used for processing. The double bond can undergo most of the typical reactions such as carbene additions, hydrogenation, epoxidation, ozonolysis, hydrohalogena-tion, and halogenation. As with the case of the other 1,4-diene monomers, many copolymers are derived from polyisoprene or isoprene itself. 

Formation of the diozonide (120) as a mixture of meso- and ( + )-isomers was achieved by ozonolysis of the corresponding diene on polyethylene (Section 4.16.9.2). This compound underwent an unusual reaction with benzyl alcohol in the presence of NaHCOj, leading to the formation of a 3-benzyloxy-l,2,4-trioxolane (121) (Scheme 32) <89TLl5ii>. It was suggested that the C—C bond linking the two ozonide rings is cleaved giving rise to an intermediate carbocation. 

For our unknown piperidine the other product is a penta-1,4-diene, the constitution of which can now identified by ozonolysis (in the presence of a reducing agent such as Zn dust, or triphenylphosphine, to prevent the oxidation of the ozonolysis fragments). Here ozonolysis will yield formaldehyde (methanal) (an indication that C-6 is unsubstituted) plus another aldehyde, XCHO (showing that C-2 bears the group X). The other product is a propanedial in which the groups Y and Z must occupy the central carbon. Clearly then, C-4 is substituted by both Y and Z. 

Assuming isomerism occurs to give the mosl stable (most conjugated and most highly substituted) dienes during the reactions, the two piperidines would undergo Hofmann exhaustive methyl-ation and subsequent ozonolysis as shown below. The diflerent orientation patterns are then reflected in the constitutions of the aldehydes and ketones that are formed. 

Much effort this year has been expended on chrysanthemic acid syntheses. Aratani et al. have extended earlier work on asymmetric synthesis (Vol. 6, p. 21) by decomposing various alkyl diazoacetates in 2,5-dimethylhexa-2,4-diene in the presence of chiral copper complexes to yield up to 92% of rrans-chrysanthemic acid in 88% dextrorotatory enantiomeric excess. Mitra has used ozonolysis of (+)-a-pinene to obtain, stereospecifically, the bromo-ketone (104) which undergoes Favorskii rearrangement to yield the anticipated ester (105) from which (+)-trans-chrysanthemic acid is readily obtained a second paper reports another route from (+)-car-3-ene initially to methyl (—)-c/s-chrysanthemate or to (—)-dihydro-chrysanthemolactone (106), both of which are convertible into (+)-rra s-chrysan-... 

The diozonolysis of cyclo-1,3-dienes leads to a mixture of substituted 1,2-dioxanes <1990OJO1369, 19890B145> the product composition, but not the stereochemistries of the reaction products, was determined by H and O NMR spectroscopy. 3,3-Diphenyl-l,2-dioxan-4-one was isolated and characterized by H NMR spectroscopy as one reaction product of the ozonolysis of (diphenylmethylene)cyclopropane <2001HCA1943>. 

Problem 8.37 For the conjugated and isolated dienes of molecular formula C H, tabulate (a) structural formula and lUPAC name, (b) possible geometric isomers, (c) ozonolysis products. 

Since the diene gives only a single product on ozonolysis, it must be symmetrical. The reduction product is 1,4-cyclohexadiene. 

There are three major achievements in this synthesis [20]. The first consists of the selective degradation of 180 to 181 in 60% yield realized via ozonolysis at low temperature. The second one was the allylic elimination of trifluoroacetate 184 after exposure to Pd(PPh3)4, which resulted in the formation of diene 185 in an acceptable yield (72% based... 

The most common procedure is ozonolysis at -78 °C (P.S. Bailey, 1978) in methanol or methylene chloride in the presence of dimethyl sulfide or pyridine, which reduce the intermediate ozonides to aldehydes. Unsubstituted cydohexene derivatives give 1,6-dialdehydes, enol ethers or esters yield carboxylic acid derivatives. Oxygen-substituted C—C bonds in cyclohexene derivatives, which may also be obtained by Birch reduction of alkoxyarenes (see p. 103f.), are often more rapidly oxidized than non-substituted bonds (E.J. Corey, 1968 D G. Stork, 1968 A,B). Catechol derivatives may also be directly cleaved to afford conjugated hexa-dienedioic acid derivatives (R.B. Woodward, 1963). Highly regioselective cleavage of the more electron-rich double bond is achieved in the ozonization of dienes (W. KnOll, 1975). 

Diene Polymers Polymerization of a 1,3-diene yields a polymer having true asymmetric centers in the main chain and ozonolysis of the polymer gives a chiral diacid compound (12) whose analysis of optical purity discloses the extent of chiral induction in the polymerization (Scheme 11.2) [12,35-39], The polymerization of methyl and butyl sorbates methyl and butyl styrylacrylates and methyl, ethyl, butyl, and /-butyl 1,3-butadiene-1-carboxylates using (+)-2-methylbutyllithium, butyllithium/(-)-menthyl ethyl ether, butyllithium/menthoxy-Na, butyllithium/bomeoxy-Na, butyllithium/Ti((-)-menthoxy)4, and butyllithium/bomyl ethyl ether initiators [35-37] and that of 1,3-pentadiene in the presence of... 

Ozonolysis of diketone carbonate 417 in methanol afforded an almost quantitative yield of the bicyclic diene triketone hydroxy-ester 418 (119). This remarkable transformation can also be readily explained. Ozonolysis of 417 produces the tetraketone intermediate 419 followed by methanol addition to produce the hemi-ketal 420 which undergoes a retro-Claisen reaction to 421. Then, loss of carbon dioxide from 421 yields 418. Again, 420 could also undergo a Grob type fragmentation to yield 418 directly. 

Known bicyclo[4.3.1]enone 15758 was converted into vinylsilane 158 with bis(trimethylsilyl)methyl lithium.55 Diene 158 underwent selective ozonolysis at the cis-olefin under conditions to produce differentially oxidized termini 90 alde-hydo-ester 159 was homologated with a phosphine oxide anion91 to enol 160. Subsequent hydrolysis of 161 provided substrate 162, which after tandem ozonolysis-acidification gave racemic 6,9-desmethyl analogue 155. Unfortunately, initial efforts failed to resolve 155 into its two optical isomers with cellulose triacetate.92 However, the antimalarial activity of racemate 155 is intriguing, as discussed in a later section. 

Given an alkene or cycloalkene (or diene, and so on), write the structures of the expected ozonolysis products. 

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