Guanidines addition reactions

A 2,2-disubstituted chromane system was asymmetrically constructed by application of intramolecular oxa-Michael addition reaction through 6-exo-trig mode cyclization [57]. Good asymmetric induction at the quaternary carbon was observed when Z-alkene was treated with the same guanidine 17 used in asymmetric carba-Michael reaction in Table 4.5 (Scheme 4.18). 

Chinchilla, R., Najera, C. and Sanchez-Agullo, P. (1994) Enantiomerically pure guanidine-catalysed asymmetric nitroaldol reaction. Tetrahedron Asymmetry, 5, 1393-1402 Ma, D. and Cheng, K. (1999) Enatioselective synthesis of functionalized a-amino acids via a chiral guanidine-catalysed Michael addition reaction. Tetrahedron Asymmetry, 10, 713. 

Kumamoto, T., Rhine, K., Endo, M. et al. (2005) Guanidine-catalysed asymmetric addition reactions Michael reaction of cyclopentenone with dibenzyl malonates and epoxidation of chalcone. Heterocycles, 66, 347-359. 

Terada, M., Ube, H. and Yaguchi, Y. (2006) Axially chiral guanidine as enantioselective base catalyst for 1,4-addition reaction of 1,3-dicarbonyl compounds with conjugated nitroalkenes. Journal of the American Chemical Society, 128, 1454-1455. 

Terada, M., Ikehara, T. and Ube, H. (2007) Enantioselective 1,4-addition reactions of diphenyl phosphite to nitroalkenes catalysed by an axially chiral guanidine. Journal of the American Chemical Society, 129, 14112-14113. 

Surprisingly, there have been only few synthetic studies on polymer-supported asymmetric superbase reagents. Recently, Wannaporn and Ishikawa prepared a new chiral guanidine based polymer catalyst and applied it to the asymmetric Michael addition reaction of iminoacetate with methyl vinyl ketone [39] (Scheme 6.7). Although the catalyst shows only moderate levels of reactivity and enantioselectivity, the result demonstrates the possibility of expanding an exciting field of asymmetric synthesis using polymer-supported chiral superbase catalysts. 

Scheme 6.7 Chiral guanidine catalysed asymmetric Michael addition reaction of t-butyl diphenyliminoacetate with methyl vinyl ketone...

Numerous guanidine-catalysed asymmetric Michael reactions and its related variants such as aza-Michael, oxa-Michael, phospha-Michael, sulfa-Michael have been reported in the literature. A nonexhaustive selection of conjugate addition reactions that is relevant to green chemistry will be presented. Glycine imines are commonly employed in Michael additions. They are protected a-amino acids and must he deprotected if an amino acid derivative is desired (Scheme 23.5). The large molecular mass of the imine group then makes waste generation a problem. 

O for S substitution [22], This large change in redox potential can alter the reactivity of the MOj core the dimolybdenum tetracarboxylate Mo2(T PB)4 can act as a catalyst for radical addition reactions of polyhaloalkanes to 1-alkenes, whereas amidinate and guanidinate analogs are catalysts for the radical polymerization of methyl methacrylate [23]. 

The wide applicability of the PK reaction is apparent in the synthesis of pyrroles, for example, 45, en route to novel chiral guanidine bases, levuglandin-derived pyrrole 46, lipoxygenase inhibitor precursors such as 47, pyrrole-containing zirconium complexesand iV-aminopyrroles 48 from 1,4-dicarbonyl compounds and hydrazine derivatives. The latter study also utilized Yb(OTf)3 and acetic acid as pyrrole-forming catalysts, in addition to pyridinium p-toluenesulfonate (PPTS). 

Villsmeier reaction on the dimethylacetal of methoxyacetaldehyde (141) with phosgene and dimethyIformamide affords the acrolein derivative, 142. Condensation of this with guanidine gives the pyrimidine, 143. (The enamine can be viewed as a latent aldehyde-the dimethylamino group is probably lost in the course of an addition elimination reaction with one of the guanidine groups.) This pyrimidine serves as starting material for sulfameter (111). ... 

Interposition of a methylene group between the phenyl ring and the heterocycle leads to the benzyldiami nopyrimidines, a class of compounds notable for their antibacterial activity. Condensation of hydrocinnamate 54 with ethyl formate leads to the hydroxymethylene derivative 55. In this case, too, the heterocyclic ring is formed by reaction with guanidine. This sequence probably involves initial addition-elimination to the forniyl carbon to form 56 cyclization in this case involves simple amide formation. Tautomerization then affords the hydroxy derivative 57. This is converted to tetroxoprim (58) by first... 

Reaction of 2,3-dichlorobenzoyl chloride with cyanide ion leads to the corresponding benzoyl cyanide (141). Condensation of that reactive intermediate with aminoguanidine 142 leads to the hydrazone-like product 143. Treatment with base results in addition of one of the guanidine amino groups to the nitrile function and formation of the 1,2,4-triazine ring. The product, lamo-trigine (144), is described as an anticonvulsant agent [31]. 

Step C Preparation ofthebase-A 300 ml one-necked, round-bottomed flask, equipped with a water-cooled condenser, calcium chloride tube and magnetic stirrer is charged with anhydrous methanol (150 ml) and sodium metal (5.75 g,0.25 g atom). When the reaction is complete, the solution is treated with dry guanidine hydrochloride (26.3 g, 0.275 mol) and stirred for 10 minutes. The sodium chloride that forms is removed by filtration. The solution is concentrated in vacuo to a volume of 30 ml and the residue treated with the product of Step B, heated one minute on a steam bath and kept at 25°C for 1 hour. The product is filtered, washed well with water, dissolved In dilute hydrochloric acid and the free base precipitated by addition of sodium hydroxide to give the amllorlde product base, a solid which melts at 240.5°-241.5°C. 

Unique examples of N,A/ , N "-tri(isopropyl)guanidinate complexes of Nb(V) and Ta(V) bearing additional terminal imido ligands have been obtained as depicted in Scheme 116. Depending on the reaction conditions, these reactions may also lead to the formation of compounds containing dianionic guanidinate... 

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