Unsaturated aldehydes cleavage

An interesting use of the diketone type of ketene dimer (34) is reduction and cleavage to B,y-unsaturated aldehyde (35),... 

Aldehydes and diethyl(triethylgermyl)phosphine give (38) while unsaturated aldehydes and ketones form 1,4-dipolar addition products (39), presumably via ionic cleavage of the germanium-phosphorus bond. Hydrolysis of these compounds produces the y-substituted phosphorus aldehydes or ketones. -... 

Five- or six-membered saturated cyclic ketones can also react by another pathway that does not involve decarbonylation. In these reactions, the biradical initially formed by a-cleavage undergoes internal disproportionation without loss of carbon monoxide, resulting in the formation of either an unsaturated aldehyde or a ketene. Methanol is usually added to convert the reactive ketene to a stable carboxylic-acid derivative (Scheme 9.2). 

The formation of unsaturated cyanohydrins (from a, -unsaturated aldehydes) is of further advantage as these products possess an additional synthetic potential. As in the saturated cyanohydrins (above in Scheme 6) they possess the same opportunities for elaboration of the hydroxyl or nitrile moiety, although the presence of the carbon-carbon double bond offers the possibility for additional transformations to be performed such as additions [108], oxidative cleavage [117,118] and epoxidation [119] (Scheme 7). Thus, these highly functionalised chiral units can be of greater importance to an organic chemist. 

These unexpected results suggest a modification of the conclusions reached in our earlier studies. Specifically, the observations indicate that in order to detect ODPM photoreactivity in p,7-unsaturated aldehydes, substiments should be present to stabilize intermediate biradicals in the rearrangement pathway, but they should not enhance alternative reactions, such as allylic homolytic cleavage. Further studies will be necessary to confirm this hypothesis and to determine the scope of these new reactions. 

In an attempt to establish the limits for ODPM reactivity of (B.y-unsaturated aldehydes, we have extended our studies to a series of aldehydes 65, (Scheme 10) which are monosubstituted at C-2. Triplet-sensitized irradiation of 65 leads to the formation of the corresponding cyclopropanecarbaldehydes 66 [59] (Scheme 10). The diphenyl-substituted aldehydes 65b and 65d yield, in addition to the ODPM products, the corresponding alkenes 67a and 67b, resulting from photodecarbonylation. The formation of these alkenes is probably due to stabilization of the radical, formed by allylic cleavage, by diphenyl conjugation. The ODPM rearrangement of aldehydes 65 is diastereoselective, yielding only one diastereoisomer of 66 (Scheme 10). 

The hydroperoxides formed in the autoxidation of unsaturated fatty acids are unstable and readily decompose. The main products of hydroperoxide decomposition are saturated and unsaturated aldehydes. The mechanism suggested for the formation of aldehydes involves cleavage of the isomeric hydroperoxide (I) to the alkoxyl radical (II), which undergoes carbon-to-carbon fission to form the aldehyde (III) (Frankel et al. 1961). 

Radical X , which initiates the reaction, is regenerated in a chain propagation sequence that, at the same time, produces an organic peroxide. The latter can be cleaved to form two additional radicals, which can also react with the unsaturated fatty acids to set up the autocatalytic process. Isomerization, chain cleavages, and radical coupling reactions also occur, especially with polyunsaturated fatty acids. For example, reactive unsaturated aldehydes can be formed (Eq. 21-14). 

Fragmentation of y-hydroxyalkyIsilanes,2 These silanes on treatment with 2-8 equiv. of CAN in aqueous CH3CN at 25° undergo cleavage to unsaturated aldehydes or ketones. 

Reductive cleavage of isoxazoles.2 Isoxazoles (1) are reductively cleaved to p-amino-a,p-unsaturated aldehydes or ketones when refluxed in moist acetonitrile containing Mo(CO)6 (0.2-1.0 equiv.). 

Types of Reaction. The net result of a-cleavage in cycloalkanones is the formation of an unsaturated aldehyde and/or a saturated ketene which subsequently reacts with nucleophiles. These types of reaction can be illustrated by the photochemistry of menthone (Formula 224). Irradiation of menthone in aqueous ethanol gives a saturated acid (Formula 225) and an unsaturated aldehyde which is either Formula 226 or 227 (86). In the absence of nucleophiles, irradiation of cyclopentanone... 

Methyl 8-oxooctanoate-4,5-D2, 35, and methyl 12-oxododecarbate-4,5,8,9-D4, 36, have been synthesized32 as shown in equations 13 and 14 by monoozonization and sodium acetate cleavage of 1,5-cyclooctadiene and 1,5,9-cyclododecatriene, respectively. The resultant unsaturated aldehydic acids 37 and 38 have been converted to the corresponding acetal esters, which have been deuteriated with Wilkinson s catalyst33 and hydrolysed to the deuterium-labelled aldehydic esters 35 and 36 in 47% and 49% overall yields and... 

The total synthesis of (+)-Macbecin I 78 [39] began with aldehyde 73, prepared via the addition of optically pure crotylsilane onto a benzylic acetal, which underwent an SMS reaction to give ester 75 in a 12 1 syn/anti ratio. Oxidative cleavage of the double bond, Wittig olefination of the resulting aldehyde and a reduction-oxidation sequence yielded a,/ -unsaturated aldehyde 76. A second SMS reaction was then performed leading to polyether 77 (dr > 20 1) that contains all the chiral centers of (+)-Macbecin I 78, Scheme 13.31. 

Furthermore unsaturated aldehydes can be obtained by the reaction of 12 with e. g. cyclohexane carboxylic acid chloride, subsequent alkaline cleavage of the remaining silyl grouping and reduction with sodium borohydride give 3-hydroxy-3-cyclohexyl-1,1-dimethoxypropane (54) which yields 3-cyclohexyl-acrolein (JJ)51 via acid treatment under dehydratation. 

Oxametallacycles are prepared from unsaturated aldehydes or ketones. Oxidative cyclization of 6-hepten-2-one (312) catalysed by the Ti catalyst Cp2Ti to give cyclopentanol 315 has been developed. The key step is the cleavage of the strong Ti—O bond in the oxametallacycle 313 with oxophilic hydrosilane, and the silyl ether 314 is formed with regeneration of Cp2Ti [129,130], Cyclization of 5-hexenal (316)... 

IOB alone can oxidize some alcohols, but catalysed oxidations are much more efficient. Thus, in the presence of RuCl2(PPh3)2 primary aliphatic alcohols were oxidized cleanly to aldehydes, at room temperature the use of m-iodosylbenzoic acid instead of IOB considerably increased the yields for example, hexanal was formed from hexanol quantitatively (by GC) [19], Another catalytic system involved the use of simple lanthanide salts such as ytterbium triacetate [20]. Cyclic y-stannyl alcohols, readily available from cyclic vinyl ketones and Bu3SnLi, underwent oxidation accompanied by carbon-carbon bond cleavage (Grab fragmentation), when treated with IOB.BF3 and DCC. The products were unsaturated aldehydes or ketones. 

In Fig. (12) keto ester (94) was selected as starting material. It was converted to the formyl derivative (95) which yielded a,P-unsaturated aldehyde (96) by treatment with DDQ. Michael addition of the sodium enolate of tert-butyl- isovalerylacetate to aldehyde (96) afforded the adduct (97) as a mixture of C-ll diastereomers. By fractional crystallization one of the adducts could be separated but for the synthetic purpose the mixture was not separated. Treatment of the adduct (97) with p-toluenesulfonic acid in glacial acetic acid caused t-butyl ester cleavage, decarboxylation and cyclodehydration leading the formation of tricyclic enedione (98) in 80% yield. This approach was previously utilized by Meyer in the synthesis of nimbiol [29], Treatment of (98) with pyridinium bromide perbromide, followed by hydrogenolysis with palladium and carbon caused aromatization of (98) leading the formation of the phenolic ester (99). 

Norbomanones experience a-cleavage on the side of the more highly substituted carbon when irradiated, the intermediate acyl radicals ultimately undergoing intramolecular C-H abstraction to generate unsaturated aldehydes.193,194 The... 

---