Amines ring-opening reactions

Ring-opening reaction Epoxide Carboxylic acid, MAn, hydroxyl, amine Ring-opening reaction... 

Interesting applications of the amine ring-opening reactions have been reported. With ethylenediamine, 4-phenyl-1,2-dithiolium salts yield the... 

Some examples of ring opening reactions with carbanions leading to five-membered heterocyclic ring formation are shown in Scheme 85. Pyrrole syntheses from functionally substituted oxiranes and amines are often described and typical examples are shown in Scheme 86. 

The first of the nudeophilic ring-opening reactions of vinylaziridines discussed in this section is diborane reduction, developed by Laurent and coworkers in 1976 (Scheme 2.24). Treatment of N-unsubstituted vinylaziridines 89 with B2H6 gives allyl amines 92 by SN2 reduction via cyclic intermediates 90 [40]. In contrast, treatment with 9-BBN gives 2-(hydroxyethyl)aziridines 93 after oxidative workup (Scheme 2.25) [41]. 

Scheme 2.30 Ring-opening reaction with organocopper reagents to form (E)-allyl 111 amines.

Electron transfer to vinylaziridines results in ring-opening reactions, yielding allyl amines. Treatment of 268 with SmI2/DMEA (N,N-dimethylethanolamine) provided allyl amine 269 as a 2 1 mixture of olefmic isomers in 88% yield (Scheme 2.66) [97]. 

The ring-opening reactions of aziridines 16 with amines deserve special attention. Unlike ring-openings with the other nucleophiles examined, they do not require added base, and they do not produce stoichiometric byproducts (as with azide). In certain cases, they do not even require a solvent, as exemplified by the ring-opening of aziridine 18 (Table 12.12, entries 1-3). In addition, the reactions... 

Typically in ring-opening reactions of aziridines, the amine functional group is retained in the product molecule. An example of such a reaction where the amine group has been lost has recently been reported <06TL977>. An intramolecular Friedel-Craft reaction of aziridine 91 leads to the expected product as an intermediate. Under the rather drastic reaction conditions, the sulfonamide is lost leading to formation of the naphthalene ring. 

A novel ring opening reaction of isoxazoles led to the formation of functionalized pyrroles <06S1021>. For example, treatment of isoxazole 52 with DBU led to the formation of pyrrole 53. A solid-phase synthesis of 3-amino-2,5-dicarboxylates was accomplished by transformation of pyrrol-3-one 54 <06JCC177>. The reaction between 54 and secondary amines led to the corresponding resin-bound aminopyrroles after enamine formation and loss... 

Wordy Over the past few years, we have encountered numerous examples of water as the perfect solvent. We observed this first in osmium-catalyzed dihydroxylation reactions and also in nucleophilic ring-opening reactions of epoxides. We also observed this in cycloaddition reactions and in most oxime ether, hydrazone, and aromatic heterocycle condensation processes.Finally, we observed it in formation reactions of an amide from a primary amine and an acid chloride using aqueous Schotten-Baumann conditions. ... 

The structural diversity (and complexity) of the products obtained by the MCR between tertiary isocyano amides, aldehydes, and amines could be increased to various heterocyclic scaffolds by combining the initial 2,4,5-tiisubstituted oxazole MCR with in situ intramolecular tandem processes (Fig. 17). Most tandem processes reported are based on the reactivity of the oxazole ring toward C=C or C=C bonds in hetero Diels-Alder reactions followed by ring opening reactions generating the rather complex heterocyclic products with high degrees of variation. 

Related to the above are the reactions of pyridinium ions with nucleophiles. It has been known for many years that pyridinium ions can undergo ring-opening reactions with primary amines (70JA5641). Studies on the mechanisms of these reactions indicate that the interconversion of the dihydropyridine (48) with the acyclic dianils (49) of glutacondialdehyde is a key step in these reactions. 

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