Heteroatoms nucleophilicity effects

Based on the observation that the majority of secondary amines shown to be effective in iminium ion catalysed transformations were cyclic five-membered nitrogen containing heterocycles, it was postulated that a highly nucleophilic nitrogen was central to catalytic activity [44]. This proposal was reinforced by the discovery that secondary amines with a-heteroatoms (a-effect nucleophiles) provided an effective platform for the acceleration of iminium ion catalysed... 

Optically active 2-alkylidene-l,3-dithiane 1,3-dioxides have been prepared as chiral Michael-type acceptors. It was shown that these compounds react under nucleophilic epoxidation conditions to give diastereoselectively the epoxides. Other heteroatom nucleophiles reacted as well <1998JOC7128, 1999PS(153/4)337>. It was further demonstrated that enolates were also effective nucleophiles for the stereoselective addition to 2-alkylidene-l,3-dithiane 1,3-dioxides (Scheme 48) <20050L4013>. 

Urea A is the starting material for preparing the carbodiimide C, which activates carboxylic acids according to the same mechanism and for the same reason as DCC, with which you are already familiar (Figures 6.15 and 6.26). If the carbodiimide C from Figure 7.5 were not so much more expensive than DCC, everybody would use the former instead of the latter for carboxylic acid activation. There is a practical reason for this. When a heteroatom nucleophile is acylated with the DCC adduct of a carboxylic acid, besides the desired carboxylic acid derivative one obtains dicyclohexyl urea (formula B in Figure 7.5). This (stoichiometric) by-product must be separated from the acylation product, which is relatively laborious when realized by chromatography or by crystallization. When a carboxylic add has been activated with the carbodiimide C and the subsequent acylation of a heteroatom nucleophile has been effected, one also obtains a urea as a stoichiometric by-product. It has the structure D and is therefore... 

Nucleophilic attack on ( -alkene)Fp+ cations may be effected by heteroatom nucleophiles including amines, azide ion, cyanate ion (through N), alcohols, and thiols (Scheme 39). Carbon-based nucleophiles, such as the anions of active methylene compounds (malonic esters, /3-keto esters, cyanoac-etate), enamines, cyanide, cuprates, Grignard reagents, and ( l -allyl)Fe(Cp)(CO)2 complexes react similarly. In addition, several hydride sources, most notably NaBHsCN, deliver hydride ion to Fp(jj -alkene)+ complexes. Subjecting complexes of type (79) to Nal or NaBr in acetone, however, does not give nncleophilic attack, but instead results rehably in the displacement of the alkene from the iron residue. Cyclohexanone enolates or silyl enol ethers also may be added, and the iron alkyl complexes thus produced can give Robinson annulation-type products (Scheme 40). Vinyl ether-cationic Fp complexes as the electrophiles are nseful as vinyl cation equivalents. ... 

Wacker-type reactions are Pd(II)-catalyzed transformations involving heteroatom nucleophiles and alkenes or alkynes as electrophiles [108]. In most of these reactions, the Pd(ll) catalyst is converted to an inactive Pd(0) species in the final step of the process, and use of stoichiometric oxidants is required to effect catalytic turnover. For example, the synthesis of furan 113 from a-allyl-P-diketone 112 is achieved via treatment of the substrates with a catalytic amount of Pd(OAc)2 in the presence of a stoichiometric amount of C uC F [109]. This transformation proceeds via Pd(lt) activation of the alkene to afford 114,... 

The arylation of nucleophiles by reaction with diaryliodonium salts can be greatly facilitated by copper catalysis. This effect was observed by Beringer et al in the thermal decomposition of diaryliodonium halides as well as by Caserio et al in the hydrolysis of diaryliodonium salts. 2 jhe thermal decomposition of diphenyliodonium chloride shows a reduced activation energy upon copper catalysis Ea = 19 kcal/mole in Methylene glycol in the presence of CuCl instead of 31 kcal/mole in the absence of catalyst.From the synthetic point of view, the copper-catalysed arylation with diaryliodonium salts has been particularly useful in the case of a number of reactions involving heteroatomic nucleophiles, in particular for 5-, 5e-, O- and N-arylation reactions. 

An underused property of cobalt-coordinated alkynes is the stabilization of propargyllic cations. The Nicholas reaction is a propargylic substitution reaction facilitated by the ability of the adjacent cobalt complex to stabilize the propargylic cation, 67 to 68. Both carbon and heteroatom nucleophiles have been used to effect this transformation. " This transformation has been been used as a strategy to introduce the alkene component for an intramolecular PKR. Shea has probed the use of an... 

Typically, however, heteroatom nucleophiles have been employed in these metal-promoted S Ar reactions, as in the formation of an aryl ether derivative of tyrosine using the Mn(CO)3 complex of chlorobenzene [317]. This type of procedure has been used to great effect (Table 14.1 entries 26 and 27) in key cyclization steps in syntheses of the ACE inhibitor K-13 (100) [318], and a portion of ristocetin (102). Two different complexed haloarene amino acid derivatives were used in the ristocetin case [179,319]. These examples, which employ j/ RuCp complexes 101,... 

Heteroatom substituents also introduce polar effects. In the case of a-alkoxy aldehydes the preferred TS appears to be F and G for the E- and Z-enolates, respectively. These differ from the normal Felkin TS for nucleophilic addition. The reactant conformation is believed to be determined by minimization of dipolar repulsion between the alkoxy substituent and the carbonyl group.96 This model predicts higher 3,4-anti ratios for Z-enolates, and this is observed. 

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