Imines deprotonation

In a synthesis of 2,3-di(hetero)arylpyrido[3,2 [l,4]thiazepines developed by Couture, 2-chloro-3-formylpyridine is reacted with arylmethylamines to form the imines. Deprotonation with LDA at -78 °C followed by treatment with non enolisable aryl thioesters gives the title compounds which may be further annulated by irradiation in benzene in the presence of iodine and propylene oxide <96S986> (Scheme 14). 

The complete interpretation of regiochemistry and stereochemistry of imine deprotonation also requires consideration of the state of aggregation and solvation of the... 

This acidity means that even iodopyrimidines and iodopyrazines may be lithiated because hindered, non-nucleophilic lithium amide bases will deprotonate them. For example, the base 244, which is easily made by BuLi attack on the imine, deprotonates 243 a to N rather than ortho to and the lithiation of 245 with LiTMP is also successful (Scheme 121). ... 

Depending on the nature of the imine, deprotonation and alkylation occurs either at the amine residue or at the carbonyl part of the molecule. Deprotonation of the amine residue (chiral auxiliary), as observed in the reaction of valine derived imines, can be excluded by choosing optimized metalation conditions3. 

Studies of deprotonation regioselectivity in mono-A-substituted ketone hydrazones have mainly dealt with the regiochemistry of ketone tosylhydrazone deprdtonations. Deprotonation of these tosylhydra-zones, as well as deprotonation of mono-A-alkyl- or mono-A-aryl-hydrazones, proceeds predominantly syn to the starting —NHR group. This regioselectivity is plausibly similar to that reported for oxime and imine deprotonations. ... 

Aromatization of indolines is important in completing synthetic sequences in which the directive effects of the indoline ring have been used to achieve selective carbocyclic substitution[l]. Several methods for aromatization have been developed and some of these are illustrated in Table 15.2. A range of reagents is represented. One type of procedure represents use of oxidants which are known to convert amines to imines. Aromatization then provides the indole. Such reagents must not subsequently oxidize the indole. Mereuric acetate (Entry 1) is known to oxidize other types of amines and presumably reacts by an oxidative deprotonation ot- to the complexed nitrogen. 

Like mthenium, amines coordinated to osmium in higher oxidation states such as Os(IV) ate readily deprotonated, as in [Os(en) (NHCH2CH2NH2)] [111614-75-6], This complex is subject to oxidative dehydrogenation to form an imine complex (105). An unusual Os(IV) hydride, [OsH2(en)2] [57345-94-5] has been isolated and characterized. The complexes of aromatic heterocycHc amines such as pyridine, bipytidine, phenanthroline, and terpyridine ate similar to those of mthenium. Examples include [Os(bipy )3 [23648-06-8], [Os(bipy)2acac] [47691-08-7],... 

The interaction of acid chlorides (167 X = Cl) with imines in the presence of bases such as triethylamine may involve prior formation of a ketene followed by cycloaddition to the imine, but in many cases it is considered to involve interaction of the imine with the acid chloride to give an immonium ion (168). This is then cyclized by deprotonation under the influence of the base. Clearly, the distinction between these routes is a rather fine one and the mechanism involved in a particular case may well depend on the reactants and the timing of mixing. Particularly important acid chlorides are azidoacetyl chloride and phthalimidoacetyl chloride, which provide access to /3-lactams with a nitrogen substituent in the 3-position as found in the penicillins and cephalosporins. 

The formation of oximes, hydrazones, and related imine derivatives is usually catalyzed by both general acids and general bases. General base catalysis of dehydration of the tetrahedral intermediate involves nitrogen deprotonation concerted with elimination of hydroxide ion. ... 

Deprotonation of / /-cyclohexylfluoroacetone imines by lithium hexamethyl-disilazide or tertiary butyl lithium at very low temperature allows a regioselective alkylation at the carbon carrying fluorine [773] (equation 98). 

The mechanism of the first part of transamination is shown in Figure 29.14. The process begins with reaction between the a-amino acid and pyridoxal phosphate, which is covalently bonded to the aminotransferase by an iminc linkage between the side-chain -NTI2 group of a lysine residue and the PLP aldehyde group. Deprotonation/reprotonation of the PLP-amino acid imine in steps 2 and 3 effects tautomerization of the imine C=N bond, and hydrolysis of the tautomerized imine in step 4 gives an -keto acid plus pyridoxamine... 

Deprotonation of the acidic a carbon of the amino acid gives an intermediate a-keto add imine. .. 

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-Acido imines (R R"C = N —X=0) like /V-acyl (X = CR) /V-sulfonyl [X = S(R)=0]2-7 or /V-diphenylphosphinoylimines [X = P(C6H5)2]3 are masked inline derivatives of ammonia. Compared to the imines themselves these activated derivatives are better electrophiles showing less tendency to undergo undesired deprotonation rather than addition of organometal-lics1812 The apparent advantages of these compounds have been exploited for asymmetric syntheses of amines, amides, amino acids and /J-lactams1-8 I6. 

Ethyl (bornylideneamino)acetate (2) and the imines of (-)-(lf ,2, 5 )-2-hydroxy-3-pinanone and glycine, alanine and norvaline methyl esters were particularly successful as Michael donors. The chiral azaallyl anions, derived from these imines by deprotonation with lithium diisopropylamide in THF at — 80 C, add to various a,/i-unsaturated esters with modest to high diastereoselectivity (see Section 1.5.2.4.2.2.5.). Thus, starting with the imine 2, (R1 = CH,) and ethyl ( )-2-butcnoate, the a,/i-dialkylated glutamate derivative 3 is obtained as a single diastercomer in 90% yield91-92. 

First, deprotonation of dimethyl phosphite accompanied by coordination of oxygen to the oxophilic lanthanide gives 33. Nucleophilic attack of P on the imine carbon along with N-coordination gives 34 proton transfer followed by product de-complexation regenerates the catalyst [33],... 

Imines can be deprotonated at the a-carbon by strong bases to give the nitrogen analogs of enolates. Originally, Grignard reagents were used for deprotonation but lithium amides are now usually employed. These anions, referred to as imine anions... 

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