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Reversible primary amines

Complexes of ruthenium and rhodium have been identified that catalyze the hydrogenation of nitriles under mild conditions with very good selectivities to the primary amine. In particular, Otsuka and co-workers showed that [RhHfP Prj) ] catalyzes the hydrogenation of a variety of nitriles to amines under mild conditions (1 atm pressure, 20 °C, 2 h Equation 15.119). The reaction is reversible primary amines undergo dehydrogenation in the presence of [Rl iHfP Prj) ] to form nitriles (Equation 15.120). Iridium catalysts for the dehydrogenation of nitriles have also been reported recently. ... [Pg.655]

Two major mechanisms for thermal degradation and one minor mechanism are shown in Fig. 9. The first mechanism is the reverse of urethane formation. The second mechanism, which was proposed by Fabris, forms a primary amine and an olefin. It involves a six-member intermediate, as shown in Fig. 10. A thermal... [Pg.801]

Imine formation is reversible. Show all the steps involved in the acid-catalyzed reaction of an imine with water (hydrolysis) to yield an aldehyde or ketone plus primary amine. [Pg.714]

Panal is stable in aqueous media (pH 1-5) at room temperature, except for a gradual hydration that can be reversed with an aqueous acid. Panal is activated into chemiluminescent compounds upon treatment with the salts of ammonia or primary amines. [Pg.279]

Kswer The primary amine might come from an amide or a cyanide, e.g, (18) a 1,3-diX disconnection (reverse Michael) is then excellent. [Pg.81]

Polar C=Y double bonds (Y = NR, O, S) with electrophilic carbon have been added to suifinic acids under formation of sulfones. As in the preceding section one must distinguish between carbonyl groups and their derivatives on the one hand, and carboxylic acids (possessing leaving groups at the electrophilic carbon) on the other. Aldehydes " of sufficient reactivity—especially mono-substituted glyoxals - —and their aryl or arylsulfonyl imines have been added to suifinic acids (in a reversible equilibrium) to yield a-hydroxy or a-amino sulfones the latter could also be obtained from the former in the presence of primary amines (equation 26). [Pg.176]

Since the order of increasing CL intensity for alkyl amines reacted with Ru(bpy)32+ is tertiary amines > secondary amines > primary amines, pharmaceutical compounds bearing a tertiary amine function (e.g., antihistamine drugs [99], anticholinergic drugs [100], erythromycin [101], and its derivatives [102]) have been sensitively determined after HPLC separation (Table 3). The method was applied to the detection of d- and L-tryptophan (Trp) after separation by a ligand-exchange HPLC [103], The detection limits for d- and L-Trp were both 0.2 pmol per injection. Oxalate in urine and blood plasma samples has also been determined by a reversed-phase ion-pair HPLC (Fig. 18) [104], Direct addition of... [Pg.419]

Amino acids labeled with DNS-C1 were determined using the Ru(bpy)32+ CL reaction after HPLC separation with a reversed-phase column [104, 105], DNS derivatives are expected to produce intense CL owing to their secondary and tertiary amino groups. The detection limit for DNS-Glu was 0.1 pM (2 pmol/ injection). Although underivatized amino acids could be detected by Ru(bpy)32+ CL, the DNS derivatives showed improved detection limits by three orders of magnitude [105], An approach to convert primary amines to tertiary amines was also reported [106], In this method, divinyl sulfone (DVS) was used for a cycloaddition reaction of primary amines (Fig. 19). The DVS derivatives after HPLC separation were sensitively detected (e.g., detection limits for propylamine and 3-aminopentane were 30 and 1 pmol, respectively). [Pg.420]

Based on the established mechanism for titanium-catalyzed hydroamination, the authors propose a reversible reaction between a titanium imide complex and the alkyne to form metalloazacyclobutene 86, which in turn undergoes 1,1-insertion of the isonitrile into the Ti-C bond. The generated five-membered ring iminoacyl-amido complex 87 with the new C-C bond is protonated by the primary amine to afford the desired three-component coupling product, with regeneration of the catalytic imidotitanium species. Very recently, titanium-catalyzed carbon-carbon bond-forming reactions have been reviewed.122... [Pg.421]

This reaction is reversible, since the condensation of a carbonyl compound and a primary amine yields the imine under dehydrating conditions. In fact, acidic conditions usually tend to favor hydrolysis, whereas neutral or slightly alkaline conditions lead to deprotonation of the amine, which then behaves as a nucleophile toward the carbonyl. [Pg.709]

The initiating reaction between aldoses and amines, or amino acids, appears to involve a reversible formation of an N-substituted aldosyl-amine (75) see Scheme 14. Without an acidic catalyst, hexoses form the aldosylamine condensation-product in 80-90% yield. An acidic catalyst raises the reaction rate and yet, too much acid rapidly promotes the formation of 1-amino-l-deoxy-2-ketoses. Amino acids act in an autocat-alytic manner, and the condensation proceeds even in the absence of additional acid. A considerable number of glycosylamines have been prepared by heating the saccharides and an amine in anhydrous ethanol in the presence of an acidic catalyst. N.m.r. spectroscopy has been used to show that primary amines condense with D-ribose to give D-ribopyrano-sylamines. ... [Pg.308]

Antidepressants of this class, such as moclobemide, have a high selectivity and affinity for MAO-A. Flowever, unlike the MAOIs, the RIMAs are reversible inhibitors of the enzyme and can easily be displaced from the enzyme surface by any primary amine which may be present in the diet. This means that the dietary amines are metabolized by MAO in the wall of the gastrointestinal tract while the enzyme in the brain and elsewhere remains inhibited. Thus the RIMAs have brought the MAOIs back into use as antidepressants in general practice. It is now evident that the RIMAs are not as potent as most currently available antidepressants. [Pg.171]

The observations that only the 3-cyano group is attacked, that only primary amine monosubstitution products undergo exchange, and that aromatic amines give only the substitution/addition products suggest that they are formed by reversible attack on an imino tautomer such as 107, which can undergo intramolecular transfer of amine, as shown in Scheme 38. [Pg.27]

Whenever only primary amines need to be derivatized, fluorescamine often constitutes the reagent of choice. Fluorescamine, although nonfluorescent itself, can react with primary amines forming highly fluorescent pyrrolinones (139-144). Aliphatic primary amines favor derivatization reaction at pH 8-9, whereas primary aromatic amines exhibit optimal reactivity at pH 3-4. Secondary amines are also fully reactive with fluorescamine but their products do not fluoresce. However, secondary amines can be detected with fluorescamine if they are converted to primary amines by oxidation with N-chlorosuccinimide prior to their fluorescamine derivatization (145, 146). Alcohols can also interact with fluorescamine but this reaction is reversible as a result, alcohols just slow down the reaction rate of fluorescamine with primary amines. On the other hand, tertiary amines and guanidines are not reactive at all with fluorescamine. [Pg.644]

The reaction of naphthols with ammonia and sodium bisulfite is the reverse of 3-2 and has a similar scope.71 It is also called the Bucherer reaction. Primary amines can be used instead... [Pg.657]

The most important reaction of this type is the formation of imine bonds and Schiff bases. For example, salicylaldehyde and a variety of primary amines undergo reaction to yield the related imines, which can be used as ligands in the formation of metal complexes. However, it is often more desirable to prepare such metal complexes directly by reaction of the amine and the aldehyde in the presence of the metal ion, rather than preform the imine.113 As shown in Scheme 31, imine formation is a reversible process and isolation of the metal complex results from its stability, which in turn controls the equilibrium. It is possible, and quite likely, that prior coordination of the salicylaldehyde to the metal ion results in activation of the carbonyl carbon to amine nucleophilic attack. But it would be impossible for a precoordinated amine to act as a nucleophile and consequently no kinetic template effect could be involved. Numerous macrocyclic chelate systems have been prepared by means of imine bond formation (see Section 61.1.2.1). In mechanistic terms, the whole multistep process could occur without any geometrical influence on the part of the metal ion, which could merely act to stabilize the macrocycle in complex formation. On the other hand,... [Pg.434]

See other pages where Reversible primary amines is mentioned: [Pg.249]    [Pg.129]    [Pg.258]    [Pg.206]    [Pg.710]    [Pg.688]    [Pg.41]    [Pg.401]    [Pg.218]    [Pg.1180]    [Pg.84]    [Pg.157]    [Pg.353]    [Pg.11]    [Pg.220]    [Pg.1085]    [Pg.48]    [Pg.337]    [Pg.329]    [Pg.281]    [Pg.6]    [Pg.245]    [Pg.244]    [Pg.614]    [Pg.44]    [Pg.573]    [Pg.319]    [Pg.26]    [Pg.177]    [Pg.129]    [Pg.679]    [Pg.679]    [Pg.291]    [Pg.92]    [Pg.146]   
See also in sourсe #XX -- [ Pg.1504 ]



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