Reactions aziridinations

Triazolines bearing three electron-withdrawing groups (Scheme 85) undergo complex thermolysis reactions. Aziridine formation is observed but sometimes the azide cycloreversion operates pyrrolidines are thus formed by reaction of the olefins with the azomethine ylides from the aziridines. The aziridines also dimerize to piperazines under the conditions of thermolysis.446... 

The reaction ofimines such as 33 with ethyl diazoacetates yields complex product mixtures consisting ofaziridines and P-enamino esters. When phenyldiazomethane is used as the nucleophilic component in this iron-catalyzed reaction, aziridines such as 34 are obtained in high yield and as single diastereoisomers (Scheme 8.11) [42]. The catalyst is the same Fe(II)-complex that was applied for the preparation of a-formyl ester 23 (cf. Scheme 8.6). 

The aziridination of olefins, which forms a three-membered nitrogen heterocycle, is one important nitrene transfer reaction. Aziridination shows an advantage over the more classic olefin hydroamination reaction in some syntheses because the three-membered ring that is formed can be further modified. More recently, intramolecular amidation and intermolecular amination of C-H bonds into new C-N bonds has been developed with various metal catalysts. When compared with conventional substitution or nucleophilic addition routes, the direct formation of C-N bonds from C-H bonds reduces the number of synthetic steps and improves overall efficiency.2 After early work on iron, manganese, and copper,6 Muller, Dauban, Dodd, Du Bois, and others developed different dirhodium carboxylate catalyst systems that catalyze C-N bond formation starting from nitrene precursors,7 while Che studied a ruthenium porphyrin catalyst system extensively.8 The rhodium and ruthenium systems are... 

Copper complexes derived from bis(-2,6-dichlorophenyle-dene)-( 15,25)-1,2-diaminocyclohexane (11) catalyze various reactions such as Diels-Alder reaction, aziridination (eq 20), cyclopropanation, and silyl enol ether addition to pyruvate esters. Although the scope of these reactions may be sometimes limited, enantioselectivities are generally high. The same complex (with copper(I) salts) catalyzes the asymmetric insertion of silicon- hydrogen bond into carbenoids. ... 

The 4-isoxazoline ring includes an N-O bond connected to a rt-system (N-O-vinyl functionality) that shows a low thermochemical stability allowing ring-rearrangement reactions. Aziridines are generally assumed to be involved in... 

A review of silver carbenoid reactions including the Wolff rearrangement, carbene-transfer reactions, aziridination, cyclopropanation, formation and reactions of... 

Sulfonium ylides may be added to C N double bonds to yield aziridines in a formal [1 -t-2]-cycloaddition. Alkyl azides are decomposed upon heating or irradiating to yield ni-trenes, which may also undergo [ 1 + 2 -cycloaddition reactions to yield highly strained hetero-cycles (A.G. Hortmann, 1972). 

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). 

The reaction of the vinylcyclopropanedicarboxylate 301 with amines affords an allylic amine via the 7r-allylpalladium complex 302[50]. Similarly, three-membered ring A -tosyl-2-(l,3-butadienyl)aziridine (303) and the four-mem-bered ring azetidine 304 can be rearranged to the five- and six-membered ring unsaturated cyclic amines[183]. 

Epoxides and aziridines are also capable of electrophilic subsitution of indoles. Indolylmagncsium bromide and cyclohexene oxide react to give 3-(lrans-2-hydroxycyclohexyl)indole[14]. Reaction of indoles with epoxides also occurs in the presence of Lewis acids. For example, indole reacts with methyl 2S,3R-epoxybutanoate at C3 with inversion of configuration[15]. 

Lewis acids such as zinc triflate[16] and BF3[17] have been used to effect the reaction of indole with jV-proiected aziridine-2-carboxylate esters. These alkylations by aziridines constitute a potential method for the enantioselective introduction of tryptophan side-chains in a single step. (See Chapter 13 for other methods of synthesis of tryptophans.)... 

The first involves the reaction of aziridine with an aldehyde or a ketone and the treatment of the resulting carbinol with hydrogen selenide (Scheme 69) (Methode I). 

SULFURIZATIONAND SULFURCm ORINATION] (Vol23) -reaction with aziridine [IMINES, CYCLIC] (Vol 14)... 

Reaction with Oxygen Nucleophiles. In the presence of strong acids, eg, H2SO4, HBF, or BF, aziridines react with alcohols to form P-amino ethers (93) ... 

The reaction of a hydroperoxide with 2-methylaziridine [75-55-8] has been described (94). The reaction of ethyleneknine with phenols (95) and carboxyHc acids (96,97) produces ethylamine ethers and esters, respectively. However, these reactions frequentiy yield product mixtures which contain polyaminoalkylated oxygen nucleophiles and polymers, in addition to the desked products (1). The selectivity of the reaction can often be improved by using less than the stoichiometric amount of the aziridine component (98,99). 

The anhydride of nitric acid, N20, reacts with 2-methyl aziridine to give the dinitrate (105). In the case of A/-substituted aziridines, the reaction stops at the stage of the nitramine nitrate prior to elimination of N2O (106). 

Reaction with Sulfur Nucleophiles, Because sulfai is highly nucleophilic, reactions of aziridines with sulfur nucleophiles generally proceed rapidly (111) and with good yields. The reaction of hydrogen sulfide [7783-06S-J with ethyleneimine yields cysteamine [60-23-1] (2-mercaptoethylamine) or bis(2-aminoethyl)sulfide [871-76-1] (2,112) depending on the molar ratio of the reactants. The use of NaHS for the synthesis of cysteamine has also been described (113). 

The reaction of hydrogen sulfide with aziridines in the presence of aldehydes or ketones provides a simple route to two-substituted thiazohdines (2,114-116). 

The reaction of aliphatic and aromatic mercaptans with aziridines yields thioethers (117—119). 

The reaction of aziridines (R = H, triazinyl) with thiosulfate yields i -aLkyl thiosulfates (131,132), which are known as Bunte salts (133). 

Cyclic Carhene Complexes. The reaction of aziridines with carbonyl, thiocarbonyl, or isonitrile ligands in Mn, Re, Fe, Ru, Pd, or Pt complexes leads to formation of cycHc carhene complexes (324—331). 

Polymerization. The polymerization of aziridines takes place ia the presence of catalytic amounts of acid at elevated temperatures. The molecular weight can be controlled by the monomer—catalyst ratio, the addition of amines as stoppers, or the use of bifimctional initiators. In order to prevent a vigorous reaction, the heat Hberated during the highly exothermic polymerization must be removed by various measures, ie, suitable dilution, controlled metering of the aziridine component, or external cooling after the reaction has started. 

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