Vinylogous mechanism

Although the exact mechanism of the Tschitschibabin cyclisation has not been elucidated, it is reasonable, as shown in Scheme 4, to assume a series of reversible steps from the vinylogous ylide (or methylide) to a methine and an enol-betaine intermediate and then finally an irreversible dehydration to the indolizine nucleus. The reaction might be related to the modern electrocyclic 1,5 dipolar cyclization. 

Addition of carbon nucleophiles to furfural tosylhydrazone provides 5-substituted 2E,4E-pentadienyls in good yields <00TL2667>. The ab initio calculations at the RHF/3-21G level have been utilized to study the origins of diastereoselectivity of the vinylogous Mannich reaction of 2-methylfuran with pyrrolinium ion . A simple procedure for isomerization of 2-furylcarbinols to cyclopentenones under neutral condition was reported and a new mechanism was proposed <00H(52)185>. 

Fig. 38 The mechanism by which an essential Lys residue in the antibody combining site is trapped using the 1,3-diketone [117] to form the covalently linked vinylogous...

The mechanism and stereochemistry of halogenation, physical methods / 273 Dihalogenation / 276 The use of A-halo compounds / 280 The use of other reagents / 282 The oxidation of halohydrins / 283 Vinylogous a-halo ketones / 284... 

The base-catalyzed Michael addition of oxazolin-5-ones to alkynic ketones produces 4-(3-oxopropenyl) derivatives (405) (79CB3221). The latter compounds are cleaved on warming with oxalic acid dihydrate in acetic acid to y-diketones (406). The mechanism of this transformation corresponds to a vinylogous Dakin-West reaction (Scheme 90). 

Other examples of deuterium incorporation at the epimeric centre have also been reported. When treated with a deuterated acid (DCl/MeOD and TFA-d, respectively), both P-carboline derivative 18 [20] and vinylogous urethane 19 [21] resulted in deuterium incorporation at C-l and C-12b (both correspond to C-3), respectively, Fig. (2). Mechanisms similar to that of Mechanism 1 were suggested to explain the epimerization. It should be noted, however, that, as pointed out above, mere deuterium incorporation is not sufficient evidence for Mechanism 1. Were Mechanism 1 alone responsible for the epimerization, both deuterium incorporation and epimerization would have to happen at the same rate. 

The mechanistic studies of the epimerization reaction still cause confusion. For the first time, direct evidence for Mechanism 1 has been presented based on the incapability of the C-12b methyl substituted vinylogous urethanes to epimerize. Further evidence for Mechanism 1 was provided by deuterium incorporation at the epimeric centre of various compounds (see above), a process most likely due to a mechanism analogous to Mechanism 1. The difference in epimerization rate and deuterium incorporation states merely that Mechanism 1 is not primarily responsible for the acid-catalysed epimerization reaction and hence does not completely discredit it. Evidence for all three mechanisms therefore now exists, revealing the complexity of the epimerization process. The results with p-carbolines and the trapping of 3,4-secoreserpine (27) and secolactam 38 provide strong evidence for Mechanism 3. Mechanism 2, which was earlier considered to be responsible for the epimerization reaction, has since been discredited. Nevertheless, the presence of 2,3-secoreserpine (26) in the trapping reaction remains undisputed and indicates that Mechanism 2 is active under the conditions employed. Thus, several mechanisms may be active simultaneously in the epimerization reaction, so further complicating the matter. 

Formed from the imine using LDA in hexane, NMR studies reveal complex solvent-dependent distributions of monomers, dimers, and trimers in several ethereal solvents, although a mono-solvated dimer can be selected by appropriate choice of solvent. Study of C-alkylation rates suggests that both monomer- and dimer-based mechanisms operate. The lithioimines were compared with the isostructural lithium dialkylamides, but were shown to be not simply vinylogous analogues thereof. 

The Claisen-type condensation reaction of cyclic vinylogous carboxylic acid triflates with lithium enolates and their analogues has provided acyclic alkynes bearing a 1,3-diketone-type moiety.19 The reaction mechanism has been proposed to proceed via a 1,2-addition of the enolate to the vinylogous acyl triflate, followed by fragmentation of the aldolate intermediate (Scheme 2). 

The nicotinamide ring of nicotinamide adenine dinucleotide can exist in both oxidized (NAD+) and reduced (NADH) forms, where the reduced form can be viewed as a double vinylogous amine, i.e. a double enamine. The hydrogen transfer from the C4 atom is widely believed to proceed by a hydride transfer mechanism, reminiscent of the mechanism of carbonyl reduction by metal hydrides. 

As shown in Equation (17), 2-trimethylsilyloxyfuran also participated in a triphenylphosphine-catalyzed substitution reaction with Morita-Baylis-Hillman acetates to provide interesting 7-butenolides regio- and diastereoselec-tively <2004AGE6689>. However, the reaction mechanism (vinylogous Michael vs. Diels-Alder) has not been distinguished. 

Both V and VII are highly unstable species, as is copper carbenoid IV. It is conceivable that both evolutionary alternatives follow downhill energy profiles. Whatever the particular mechanism, the transformation of I into II has been termed the vinylogous Wolff rearrangement, since it was taken as a homolog of the classical Wolff transposition. 

Hydrolytic studies with other K-region arene oxides 3, 20, 4, and 109 have been reported. ° ° A comparative investigation of the mechanism of the solvolysis and rearrangement of K- and non-K-region arene oxides showed that dihydrodiols were not produced from non-K-region arene oxides and the exclusively formed phenols resulted mainly from the vinylogous benzylic carbonium ions. 

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