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Schiff bases, amine oxidation

Reactions with Ammonia and Amines. Acetaldehyde readily adds ammonia to form acetaldehyde—ammonia. Diethyl amine [109-87-7] is obtained when acetaldehyde is added to a saturated aqueous or alcohoHc solution of ammonia and the mixture is heated to 50—75°C in the presence of a nickel catalyst and hydrogen at 1.2 MPa (12 atm). Pyridine [110-86-1] and pyridine derivatives are made from paraldehyde and aqueous ammonia in the presence of a catalyst at elevated temperatures (62) acetaldehyde may also be used but the yields of pyridine are generally lower than when paraldehyde is the starting material. The vapor-phase reaction of formaldehyde, acetaldehyde, and ammonia at 360°C over oxide catalyst was studied a 49% yield of pyridine and picolines was obtained using an activated siHca—alumina catalyst (63). Brown polymers result when acetaldehyde reacts with ammonia or amines at a pH of 6—7 and temperature of 3—25°C (64). Primary amines and acetaldehyde condense to give Schiff bases CH2CH=NR. The Schiff base reverts to the starting materials in the presence of acids. [Pg.50]

Primary amines form Schiff bases, (CH3 )2C=NR. Ammonia induces an aldol condensation followed by 1,4-addition of ammonia to produce diacetone amine (from mesityl oxide), 4-amino-4-methyl-2-pentanone [625-04-7] (CH2)2C(NH2)CH2COCH2, and triacetone amine (from phorone),... [Pg.93]

The heavier chalcogens are more prone towards secondary interactions than sulfur. In particular, the chemistry of tellurium has numerous examples of intramolecular coordination in derivatives such as diazenes, Schiff bases, pyridines, amines, and carbonylic compounds. The oxidation state of the chalcogen is also influential sulfur(IV) centres engender stronger interactions than sulfur(II). For example, the thiazocine derivative 15.9 displays a S N distance that is markedly longer than that in the corresponding sulfoxide 15.10 (2.97 A V5. 2.75-2.83 A, respectively). ... [Pg.296]

CHC(=0)Me, BuNH2, MeCN, reflux, 24 h 16% change in regioselectivity and preservation from deacylation may perhaps be explained by the possibility for Schiff base formation of the synthon and product, respectively, in the presence of the primary amine] 158 a plausible reason for the formation of mono- instead of di-lV-oxides was advanced.158... [Pg.66]

Complex [Ni(468)] is formed with Ni11 salts and the amine-thiolate ligand, or by reduction of the corresponding Schiff base complex with NaBH4-[Ni(468)] is easily deprotonated to form the dianionic complex, which is subsequently oxidized to the monoanion. On the other hand, the dianionic complex reacts with CH3I to form the fourfold methylated octahedral complex (469).1305 Since without preceding deprotonation only the S-donors are methylated, the complex with twofold amine methyla-tion must be synthesized via protection and subsequent deprotection of the S-donors.1306... [Pg.361]

When Ni(0Ac)2 4H20 is employed, a dimeric complex (551) with a coordinated Schiff base forms, because the amine donor reacts with the solvent acetone. With Ni(C104)2 6H20, a trinuclear complex (552) is obtained which is readily oxidized upon exposure to air or by aqueous... [Pg.372]

Aldehyde-containing macromolecules will react spontaneously with hydrazide compounds to form hydrazone linkages. The hydrazone bond is a form of Schiff base that is more stable than the Schiff base formed from the interaction of an aldehyde and an amine. The hydrazone, however, may be reduced and further stabilized by the same reductants utilized for reductive amination purposes (Chapter 3, Section 4.8). The addition of sodium cyanoborohydride to a hydrazide-aldehyde reaction drives the equilibrium toward formation of a stable covalent complex. Mallia (1992) found that adipic acid dihydrazide derivatization of periodate-oxidized dextran (containing multiple formyl functionalities) proceeds with much greater yield when sodium cyanoborohydride is present. [Pg.140]

Proteins may be modified with oxidized dextran polymers under mild conditions using sodium cyanoborohydride as the reducing agent. The reaction proceeds primarily through e-amino groups of lysine located at the surface of the protein molecules. The optimal pH for the reductive amination reaction is an alkaline environment between pH 7 and 10. The rate of reaction is greatest at pH 8-9 (Kobayashi and Ichishima, 1991), reflecting the efficiency of Schiff base formation at this pH. [Pg.952]

In contrast to the flavin-dependent monoamine oxidases, SSAO/VAP-1 has evolved to hydroxylate a tyrosine residue in the active site which is further oxidized to the quinone state by oxygen in the presence of copper ion releasing hydrogen peroxide [28-30]. The primary amine in the substrate (R-NH2, Scheme 1) forms a Schiff-base with the quinone carbonyl group, which through a series of steps ultimately releases the aldehyde product. [Pg.233]

Oxidation of amines to imines.1 This Swern reagent effects oxidation of ben-zylamines to the corresponding Schiff bases in 40-60% yield. It also oxidizes in-doline to indole in 88% yield. [Pg.150]

See other pages where Schiff bases, amine oxidation is mentioned: [Pg.571]    [Pg.111]    [Pg.56]    [Pg.179]    [Pg.182]    [Pg.208]    [Pg.77]    [Pg.146]    [Pg.149]    [Pg.160]    [Pg.178]    [Pg.229]    [Pg.126]    [Pg.608]    [Pg.103]    [Pg.442]    [Pg.756]    [Pg.56]    [Pg.129]    [Pg.362]    [Pg.393]    [Pg.802]    [Pg.802]    [Pg.855]    [Pg.855]    [Pg.857]    [Pg.857]    [Pg.893]    [Pg.910]    [Pg.952]    [Pg.58]    [Pg.200]    [Pg.199]    [Pg.205]    [Pg.331]    [Pg.1085]    [Pg.287]    [Pg.285]    [Pg.307]    [Pg.308]   
See also in sourсe #XX -- [ Pg.146 ]



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Amine base

Oxidation Schiff bases

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