Imines enamine

Pyrido[3,4-fe]pyraziii-3- and -2-oiies exist in the enamino forms 171 and 172 respectively in DMSO-dg ( H NMR spectroscopy) and in the solid state (IR spectra in nujol), and temperature appears not to affect these imine-enamine equilibria (97JHC773). 

L-idose 293, 311 ff. imine formation 57 imine-enamine tautomerization 467 iminium-RhH jt complex 351 f. imipenem 348 indoline ligands 681, 684 indolizomycin 47 Iff. -.retrosynthetic analysis 472ff. 

Due to mechanistic requirements, most of these enzymes are quite specific for the nucleophilic component, which most often is dihydroxyacetone phosphate (DHAP, 3-hydroxy-2-ox-opropyl phosphate) or pyruvate (2-oxopropanoate), while they allow a reasonable variation of the electrophile, which usually is an aldehyde. Activation of the donor substrate by stereospecific deprotonation is either achieved via imine/enamine formation (type 1 aldolases) or via transition metal ion induced enolization (type 2 aldolases mostly Zn2 )2. The approach of the aldol acceptor occurs stereospecifically following an overall retention mechanism, while facial differentiation of the aldehyde is responsible for the relative stereoselectivity. 

A subclass of lyases, involved in amino acid metabolism, utilizes pyridoxal 5-phosphate (PLP, 3-hydroxy-2-methyl-5-[(phosphonooxy)methyl]-4-pyridinecarbaldehyde) as a cofactor for imine/ enamine-type activation. These enzymes are not only an alternative to standard fermentation technology, but also offer a potential entry to nonnatural amino acids. Serine hydroxymethyl-tansferase (SHMT EC 2.1.2.1.) combines glycine as the donor with (tetrahydrofolate activated) formaldehyde to L-serine in an economic yield40, but will also accept a range of other aldehydes to provide /i-hydroxy-a-amino acids with a high degree of both absolute and relative stereochemical control in favor of the L-erythro isomers41. 

Enamines are normally stable only when there is no hydrogen on the nitrogen (R2C=CR—NR2). Otherwise, the imine form predominates. The energy of various imine-enamine tautomers has been calculated. ... 

In marked contrast to the other hetero atom multiple bond functions cited in this section the >C=N- imine bond was not found to undergo hydrometalation. Imines with neighboring C-H bonds as in PhCH=NMe do react with 1 via imine/enamine tautomerism, but not by hydrozirconation [197]. 

This example covers very classical processes such as syntheses of a wide variety of compounds including imines, enamines, amides, oxazolines, hydrazones, etc. .. 

The preparation of imines, enamines, nitroalkenes and N-sulfonylimines proceeds via the azeotropic removal of water from the intermediate in reactions that are normally catalyzed by p-toluenesulfonic acid, titanium(IV) chloride, or montmorillonite K 10 clay. A Dean-Stark apparatus is traditionally used which requires a large excess of aromatic hydrocarbons such as benzene or toluene for azeotropic water elimination. 

Reactions of Halogenation and Nitrosation Nitrones with protons in the a-alkyl group can occur in tautomeric nitrone-hydroxylamine equilibrium (Scheme 2.117) similar to keto-enol and imine-enamine tautomerisms. 

We shall consider the sequence as firstly imine formation (an abbreviated form of this mechanism is shown), followed by imine-enamine tautomerism. This provides a nucleophilic centre and allows a subsequent aldol-type reaction with enamine plus ketone. The pyrrole ring is produced by proton loss and a dehydration. 

Fig. 24 Cyclic imines/enamines from post-Ugi cyclization of amino ketones or amino aldehydes...

The solid-state interaction of enamines (428, 333a) with trans-l,2-diben-zoylethene (87) provides quantitative yields of the pyrrole derivatives 445 or 446 [140]. These remarkable 5-cascades consist of initial vinylogous Michael addition, enol/keto tautomerism, imine/enamine tautomerism, cyclization, and elimination, all within the crystal without melting. A waste-free extraordinary atom economy is achieved that cannot nearly be obtained in solution. The milling times are unusually long here (3 h) but it s certainly worth the effort... 

List later reported the asymmetric reductive amination of a wide spectrum of aromatic and aliphatic a-branched aldehydes via dynamic kinetic resolution (Scheme 5.27) [49]. The initial imine condensation product is believed to undergo fast racemization in the presence of the acid catalyst Ih through an imine/enamine tautomerization pathway. Preferential reductive amination of one of the imine enantiomers furnishes the optically pure P-branched amine. 

Aldolases have been classified into mechanistically distinct classes according to their mode of donor activation. Class 1 aldolases achieve stereospecific deprotonation via covalent imine/enamine formation at an active-site lysine residue, while Class II aldolases utilize a divalent transition metal cation for substrate coordination as an essential Lewis acid cofactor (usually Zn ) to facilitate deprotonation... 

Reaction of aryl hydrazines and hydrazine with dimethyl acetylene dicarboxylate to afford imine-enamine tautomers [192]. 

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