P-imines

Further chemical fine tuning has been achieved by means of additional ligands with ylide-type bond systems from the iso-electronic series of highly polar P-ylides, P-imines and P-oxides. Examples for HDPEs (high density polyethylenes) are given in Tab. 1.4. 

Primary and secondary amines also react with epoxides (or in situ produced episulfides )r aziridines)to /J-hydroxyamines (or /J-mercaptoamines or 1,2-diamines). The Michael type iddition of amines to activated C—C double bonds is also a useful synthetic reaction. Rnally unines react readily with. carbonyl compounds to form imines and enamines and with carbo-tylic acid chlorides or esters to give amides which can be reduced to amines with LiAlH (p. Ilf.). All these reactions are often applied in synthesis to produce polycyclic alkaloids with itrogen bridgeheads (J.W. Huffman, 1967) G. Stork, 1963 S.S. Klioze, 1975). 

Finally a general approach to synthesize A -pyrrolines must be mentioned. This is tl acid-catalyzed (NH4CI or catalytic amounts of HBr) and thermally (150°C) induced tea rangement of cyclopropyl imines. These educts may be obtained from commercial cyan> acetate, cyclopropyl cyanide, or benzyl cyanide derivatives by the routes outlined below. Tl rearrangement is reminiscent of the rearrangement of 1-silyloxy-l-vinylcyclopropancs (p. 7 83) but since it is acid-catalyzed it occurs at much lower temperatures. A -Pyrrolines constitut reactive enamines and may be used in further addition reactions such as the Robinson anei lation with methyl vinyl ketone (R.V. Stevens, 1967, 1968, 1971). 

The Pd(0)-catalyzed rearrangement of the iV-allylenamine 800 in CF3CO2H affords the (5, -unsaturated imine 801, which is hydrolyzed to give the 7, 8-unsaturated aldehyde 802[498]. The vinyloxaspirohexane 803 undergoes rearrangement-ring expansion to give the cyclopentanone 804 in the presence of 1 equiv. of p-nitrophenol[499]. 

As was the case with reactions of vinylindoles, the most elaborate synthetic targets approached by the indole-2,3-quinodimethane route have been alka-loids[18]. The route has been applied to aspidospenna[l9 ] and kopsine[20] structures. The fundamental reaction pattern is illustrated in equation 16.7. An indole-2,3-quinodimethane is generated by W-acylation of an Ai-(pent-4-enyl)-imine of a 2-methyl-3-formylindole. Intramolecular 2 -P 4 cydoaddition then occurs. 

Oxidation H ir Colorant. Color-forming reactions are accompHshed by primary intermediates, secondary intermediates, and oxidants. Primary intermediates include the so-called para dyes, -phenylenediamine, -toluenediamine, -aminodiphenylamine, and p- am in oph en o1, which form a quinone monoimine or diimine upon oxidation. The secondary intermediates, also known as couplers or modifiers, couple with the quinone imines to produce dyes. Secondary intermediates include y -diamines, y -aminophenols, polyhydroxyphenols, and naphthols. Some of the more important oxidation dye colors are given in Figure 1. An extensive listing is available (24,28). 

The metal coordination complexes of both sahcylaldehyde phenyhiydrazone (91) and sahcylaldoxime provide antioxidant (92) protection and uv stabihty to polyolefins (see Antioxidants). In addition, the imines resulting from the reaction of sahcylaldehyde and aromatic amines, eg, p- am in oph en o1 or a-naphthylamine, can be used at very low levels as heat stabiLizers (qv) in polyolefins (93). 

L = P(CH3)3 or CO, oxidatively add arene and alkane carbon—hydrogen bonds (181,182). Catalytic dehydrogenation of alkanes (183) and carbonylation of bensene (184) has also been observed. Iridium compounds have also been shown to catalyse hydrogenation (185) and isomerisation of unsaturated alkanes (186), hydrogen-transfer reactions, and enantioselective hydrogenation of ketones (187) and imines (188). 

Isoxazolin-5-imines were produced by nitrile oxide addition to cyanoacetates (62HC(17)l,p.7), by the reaction of nitrones with phenylacetonitrile (74CB13), and by base addition of nitrosobenzene to nitriles (Scheme 148) (72LA(762)154). 

Ring expansion of haloalkyloxiranes provides a simple two-step procedure for the preparation of azetidin-3-ols (Section 5.09.2.3.2(f)) which can be extended to include 3-substituted ethers and O-esters (79CRV331 p. 341). The availability of 3-hydroxyazetidines provides access to a variety of 3-substituted azetidines, including halogeno, amino and alkylthio derivatives, by further substitution reactions (Section 5.09.2.2.4). Photolysis of phenylacylamines has also found application in the formation of azetidin-3-ols (33). Not surprisingly, few 2-0-substituted azetidines are known. The 2-methoxyazetidine (57) has been produced by an internal displacement, where the internal amide ion is generated by nucleophilic addition to an imine. 

Monocyclic /3-lactams undergo thermolysis or photolysis to give alkenes and isocyanates or ketenes and imines depending on the substitution pattern (75S547 p. 586). Apparently, thermolysis favours the former pathway while photolysis favours the latter (68CB2669). 

JA468>, and the 3-imino-l-azetine (205 Ar = p-FC6H4) has imine absorptions at 1600 and 1715 cm , assigned to the endo- and exo-cyclic imine functions respectively (74ZN(B)399>. 

Bonds between carbon and various heteroatoms (e.g. O, N, S, P) which are easily generated synthetically are strategic for disconnection. Specific bonds in this category are ester, amide, imine, thioether, and acetal. 

A7-Acylhexafluoroacetone imines are prepared from hexafluoroacetone and carboxylic amides m the presence of p-toluenesulfonic acid (TsOH) [100] (equation 86)... 

These observations are explained by the mechanism shown in the figure. NaBH4 inactivates Class I aldolases by transfer of a hydride ion (H ) to the imine carbon atom of the enzyme-substrate adduct. The resulting secondary amine is stable to hydrolysis, and the active-site lysine is thus permanently modified and inactivated. NaBH4 inactivates Class I aldolases in the presence of either dihydroxyacetone-P or fructose-1,6-bisP, but inhibition doesn t occur in the presence of glyceraldehyde-3-P. 

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