Methylene compounds, double-bonded

The presence of conjugated double bond systems in the alkyl chain increases the retention time of an ester considerably over that of a similar compound with methylene-interrupted double bonds. Methyl 9-c/s,11-frans-octadecadienoate, for example, is a common minor constituent of ruminant and other tissues and has ECL values of 20.48 on EGSS-X and 20.24 on EGSS-Y , i.e. appreciably greater than the corresponding values for methyl linoleate [161]. In addition, the configuration of the double... 

Chemically, PUFAs are fatty acids containing two or more methylene-interrupted double bonds in their structure. The configuration of the double bonds in many naturally occurring unsaturated fatty acids is Z. These compounds are also referred to as cw-fatty acids or all-cA fatty acids. PUFAs containing E-configured double bonds also occur naturally. These so-called trans-fmy acids have been isolated from bovine fat and the milk of cow, goat, and ewe [15], There are four families of PUFAs, namely, the (0-9, (0-7, (0-6, and (0-3 PUFAs. Oleic acid (2) is the precursor for the (0-9 family, and palmitoleic acid (3) is the precursor... 

The addition of active methylene compounds (ethyl malonate, ethyl aoeto-acetate, ethyl plienylacetate, nltromethane, acrylonitrile, etc.) to the aP-double bond of a conjugated unsaturated ketone, ester or nitrile In the presence of a basic catalyst (sodium ethoxide, piperidine, diethylamiiie, etc.) is known as the Michael reaction or Michael addition. The reaction may be illustrated by the addition of ethyl malonate to ethyl fumarate in the presence of sodium ethoxide hydrolysis and decarboxylation of the addendum (ethyl propane-1 1 2 3-tetracarboxylate) yields trlcarballylic acid ... 

Various terminal allylic compounds are converted into l-alkenes at room temperature[362]. Regioselective hydrogenolysis with formate is used for the formation of an exo-methylene group from cyclic allylic compounds by the formal anti thermodynamic isomerization of internal double bonds to the exocyclic position[380]. Selective conversion of myrtenyl formate (579) into /9-pinene is an example. The allylic sulfone 580 and the allylic nitro compound... 

As a further application of the reaction, the conversion of an endocyclic double bond to an c.xo-methylene is possible[382]. The epoxidation of an cWo-alkene followed by diethylaluminum amide-mediated isomerization affords the allylic alcohol 583 with an exo double bond[383]. The hydroxy group is eliminated selectively by Pd-catalyzed hydrogenolysis after converting it into allylic formate, yielding the c.ro-methylene compound 584. The conversion of carvone (585) into l,3-disiloxy-4-methylenecyclohexane (586) is an example[382]. 

The widespread use of cinnamic derivatives has led to the pursuit of reUable methods for thek dkect synthesis. Commercial processes have focused on condensation reactions between ben2aldehyde and a number of active methylene compounds for assembly of the requisite carbon skeleton. The presence of a disubstituted carbon—carbon double bond in the sidechain of these chemicals also gives rise to the existence of two distinct stereoisomers, the cis or (Z)- and trans or (E)- isomers ... 

Cyclopentadiene contains conjugated double bonds and an active methylene group and can thus undergo a Diels-Alder diene addition reaction with almost any unsaturated compound, eg, olefins, acetylene, maleic anhydride, etc. The number of its derivatives is extensive only the reactions and derivatives considered most important are discussed. 

At first, these highly reactive free radicals react with the antioxidant, but as the antioxidant is consumed, the free radicals react with other compounds. Hydrogens on methylene groups between double bonds are particularly susceptible to abstraction to yield the resonance stabilized free radical ( ) ... 

The reaction of arylnitrile oxides with 1,1-diphenylallenes gave a mixture of 4-methylene-2-isoxazolines (Scheme 106) with major attack at the C(2)—C(3) double bond (74JCS(P2)l30l, 76CSC67, 76CSC71, 72JCS(P2)1914) and not a mixture of the 4- and 5-methylene compounds. 1-Phenoxyallene and benzonitrile oxide produced a mixture of positional isomers and a spiro compound (Scheme 107) (79JOC2796). 

Treatment of natural rubber with chlorine gives a product, chlorinated rubber, with a maximum chlorine content of 65% corresponding to the empirical formula C10H11CI7. Such a compound corresponds neither to a hypothetical simple addition to the double bond (Figure 30.6 (I)) nor to a product with a-methylenic substitution in addition (II). 

In the absence of hydroxyl group assistance, methylenation of exocylic-A -5a-H compounds and the 24,25-double bond of lanosteroP gives the cyclopropane systems (22)-(24). 

If A -20-keto steroids are used as substrates, only low yields of A -17a-hydroxy-20-keto compounds are obtained. If a methyl group is also present on the double bond at C-16, the final product is a 16-methylene-17a-hydroxy-20-keto steroid. " ... 

Tnalkylindoles undergoFnedel-Crafts reactions at position 6, however, in tnfluoroacetic anhydride the a-methyl group of 1,2,3-trimethylindole is acylated through an intermediate enamine [41, 42] (equation 27) Similarly, tnfluoroacetic anhydnde acylates the double bond of the a-methylene compound shown [42] (equation 28)... 

Tertiary pyrrolines (49, = 1) and piperideines (49, = 2) (if R = H and the enamine can exist in the monomeric form or if R = aryl) evidently possess an endocyclic -double bond (79,155,156). The stretching frequency of the double bond can be lowered to 1620-1635 cm by conjugation with an aromatic substituent. The double bond of an analogous compound with aliphatic substituents in position 2 may occupy either the endo or the exo position. Lukes and co-workers (157) have shown that the majority of the five-membered-ring compounds, traditionally formulated with the double bond in a position, possess the structure of 2-alkylidene derivatives (50) with an exocyclic double bond, infrared absorption at 1627 cm . Only the 1,2-dimethyl derivative (51) is actually a J -pyrroline, absorbing at 1632 cm . For comparison, l,3,3-trimethyl-2-methylene pyrrolidine (52) with an unambiguous exocyclic double bond has been prepared (54). 

More useful for synthetic purposes, however, is the combination of the zinc-copper couple with methylene iodide to generate carbene-zinc iodide complex, which undergoes addition to double bonds exclusively to form cyclopropanes (7). The base-catalyzed generation of halocarbenes from haloforms (2) also provides a general route to 1,1-dihalocyclopropanes via carbene addition, as does the nonbasic generation of dihalocarbenes from phenyl(trihalomethyl)mercury compounds. Details of these reactions are given below. 

In the third sequence, the diastereomer with a /i-epoxide at the C2-C3 site was targeted (compound 1, Scheme 6). As we have seen, intermediate 11 is not a viable starting substrate to achieve this objective because it rests comfortably in a conformation that enforces a peripheral attack by an oxidant to give the undesired C2-C3 epoxide (Scheme 4). If, on the other hand, the exocyclic methylene at C-5 was to be introduced before the oxidation reaction, then given the known preference for an s-trans diene conformation, conformer 18a (Scheme 6) would be more populated at equilibrium. The A2 3 olefin diastereoface that is interior and hindered in the context of 18b is exterior and accessible in 18a. Subjection of intermediate 11 to the established three-step olefination sequence gives intermediate 18 in 54% overall yield. On the basis of the rationale put forth above, 18 should exist mainly in conformation 18a. Selective epoxidation of the C2-C3 enone double bond with potassium tm-butylperoxide furnishes a 4 1 mixture of diastereomeric epoxides favoring the desired isomer 19 19 arises from a peripheral attack on the enone double bond by er/-butylper-oxide, and it is easily purified by crystallization. A second peripheral attack on the ketone function of 19 by dimethylsulfonium methylide gives intermediate 20 exclusively, in a yield of 69%. 

Stansbury and Bailey. A review by Colombam on addition-fragmentation processes is also relevant. Monomers used in ring-opening are typically vinyl (e.g. vinylcyclopropane - Scheme 4.20 Section 4.4.2.1) or methylene substituted cyclic compounds (e.g. ketene acetals - Section 4.4.2.2) where addition to the double bond is followed by p-scission. 

A somewhat related sequence leads to trilostane (111), a compound that inhibits the adrenal gland more specifically the agent blocks some of the metabolic responses elicited by the adrenal hormone ACTH in experimental animals. Reaction of the hydroxy-methylene derivative 108, obtained from testosterone, with hydroxylamine gives the corresponding isoxazole (109). Oxidation of the C-4,5 double bond by means... 

A new class of metaphosphinates, namely iminomethylenephosphoranes (1 with R = N(SiMe3)2, X = NSiMe3) is accessible by reaction of diazoalkanes with imino-phosphines (SiMe3)2N—P=N—SiMe3. Depending on the substituents on the methylene carbon atom, compounds of this class are either stable or dimerize across the P=C or P=N double bond 141). 

The highly strained nature of methylene- and alkylidenecyclopropanes has been evidenced by spectroscopic measurements and X-ray analysis. The presence of the exocyclic double bond imposes a lengthening of the C(2)-C(3) bond as a result of an increase of the C(2)-C(l)-C(3) angle (compared to cyclopropane). This structural feature is reflected in a typical reactivity of these compounds which is a thermal or transition metal catalysed [3 + 2] cycloaddition with alkenes. This chemistry, usually referred to as TMM chemistry , has been the object of many studies and thoroughly reviewed by Binger and Buch [2] and Trost [8]. 

ADC compounds add to allenes to give 3-methylene-1,2-diazetidines. Tetramethoxyallene adds to DEAZD and to PTAD to give adducts 59 and 60 in 43 and 69% yield.99 DEAZD adds to the 2,3-double bond of 1,1-difluoroallene (in poor yield), in contrast to maleic anhydride which adds to the 1,2-double bond.100 o... 

Diisobutylaluminium hydride catalyses the ring-closure of various dienes. It is proposed that the process involves addition of the aluminium hydride to a terminal double bond, followed by ring-closure and, finally, elimination of the catalyst (equation 106). Thus 1,5-hexadiene gives methylenecyclopentane (213) (equation 107), 1,6-heptadiene gives methylenecyclohexane (214) (equation 108), 4-vinylcyclohexene gives bicyclo[3.2.1]oct-2-ene (215) (equation 109) and the spiro compound 217 is obtained from 5-methylene-l,8-nonadiene (216) (equation 110)112. 

It is obvious that these compounds have in common an uninterrupted cyclic arrangement of cross-conjugated jr-systems. Compound 5 likewise contains the maximum number of exocyclic double bonds at a perimeter consisting only of sp2-hybridized carbon atoms. Thus, our definition allows one to call it a radialene, i.e. naphtharadialene on the other hand, it excludes hydrocarbons such as 6 [3,4,5,6-tetrakis(methylene)cyclohexene]. Although in the latter molecule all carbon atoms are indeed sp2-hybridized, the number of exocyclic double bonds has not reached its maximum. In 5, however, the number of double bonds cannot be increased further. 

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