Azides regioselectivity

Rearrangements. Cyclic ketones utM sdroxyalkyl azides." Regioselectivity is d Beckmann rearrangement of ketoxime o emperature. 

Rearrangements. Cyclic ketones undergo ring expansion on reaction with hydroxyalkyl azides." Regioselectivity is dependent on steric and electronic factors. Beckmann rearrangement of ketoxime carbonates has been observed at room temperature. 

Scheme 48 Cycloaddition of internal alkynes with azides regioselectivity issue...

Regioselective 1,4-azidohydroxylation to give 309 takes place by the reaction of the vinyloxirane 308 with sodium azide[188]. The reaction of the cyclopen-tadiene monoepoxide 310 with sodium azide or purine base offers a good synthetic method for the carbocyclic nucleoside 311(189-191]... 

The nucleophilic attack of nitrogen bases leads to a variety of products as the result of addition or addition-elimination reactions The regioselectivity resembles that of attack by alcohols and alkoxides an intermediate carbanion is believed to be involved In the absence of protic reagents, the fluorocarbanion generated by the addition of sodium azide to polyfluonnated olefins can be captured by carbon dioxide or esters of fluonnated acids [J 2, 3] (equation I)... 

Regioselective addition of bromine azide to dienes 38 at 25 °C gave the 1,4-adducts 39 or the 1,2-adducts 40 as thermodynamically favored products, their ratios depending on the substituent R on the terminal carbon (Scheme 2.12). These adducts were easily converted into vinylaziridines 41 on treatment with trimethyl-phosphite, although the stereochemistries of 39, 40, and 41 are unclear [23]. 

Bartoli recently discovered that by switching from azide to p-anisidine as nucleophile, the ARO of racemic trans- 3-substituted styrene oxides could be catalyzed by the (salen)Cr-Cl complex 2 with complete regioselectivity and moderate selectivity factors (Scheme 7.36) [14]. The ability to access anti-P-amino alcohols nicely complements the existing methods for the preparation of syn-aryl isoserines and related compounds [67] by asymmetric oxidation of trans-cinnamate derivatives [68]. 

The authors have also elaborated a microwave-enhanced one-pot procedure [90] for the Huisgen 1,3-dipolar cycloaddition reaction. In a typical procedure, a pyrazinone with a triple bond connected to the core via C - O linkage, was reacted with a suitable benzylic bromide and NaNs in presence of the Cu(I) catalyst in a t Bu0H/H20 system under microwave irradiation (Scheme 26). The cycloaddition was found to proceed cleanly and with full regioselectivity. As the azide is generated in situ, this procedure avoids the isolation and purification of hazardous azides, which is especially important when handling the ahphatic ones, which are known to be toxic and explosive in nature. 

Regioselective Beckmann rearrangements were used as key steps in the synthesis of phosphonoalkyl azepinones (Scheme 36) [43b] and in a formal total synthesis of the protein kinase C inhibitor balanol (Scheme 37) the optically active azide 197 derived from cyclohexadiene mono-oxide was converted into ketone 198 in several steps. After preparation of the oxime tosylates 199 (2.3 1 mixture), a Lewis acid mediated regioselective Beckmann rearrangement gave the lactams 200 and 201 in 66% and 9% yield, respectively. Lactam 201 underwent a 3-e im-ination to give additional 200, which served as a key intermediate in a balanol precursor synthesis (Scheme 37) [43 cj. 

It is not only the activity that can be altered by incorporation of noncoded amino acids. Introduction of structures possessing certain chemical functions leads to the possibility of highly regioselective modification of enzymes. For example, selective enzymatic modification of cystein residues with compounds containing azide groups has led to the preparation of enzymes that could be selectively immobilized using click chemistry methods [99]. 

The NHCs have been used as ligands of different metal catalysts (i.e. copper, nickel, gold, cobalt, palladium, rhodium) in a wide range of cycloaddition reactions such as [4-1-2] (see Section 5.6), [3h-2], [2h-2h-2] and others. These NHC-metal catalysts have allowed reactions to occur at lower temperature and pressure. Furthermore, some NHC-TM catalysts even promote previously unknown reactions. One of the most popular reactions to generate 1,2,3-triazoles is the 1,3-dipolar Huisgen cycloaddition (reaction between azides and alkynes) [8]. Lately, this [3h-2] cycloaddition reaction has been aided by different [Cu(NHC)JX complexes [9]. The reactions between electron-rich, electron-poor and/or hindered alkynes 16 and azides 17 in the presence of low NHC-copper 18-20 loadings (in some cases even ppm amounts were used) afforded the 1,2,3-triazoles 21 regioselectively (Scheme 5.5 Table 5.2). 

The cleavage of epoxides by water is a classical reaction. Such epoxide cleavage can be catalyzed by both acids and bases in aqueous media. In the presence of other nucleophiles, the corresponding nucleophilic ringopening products are obtained with the nucleophiles being incorporated into the products.68 Examples include azides, iodides, and thiols in the presence or absence of metal salts in aqueous media. The pH of the reaction medium controls the reactivity and regioselectivity of the... 

Azido-l-alkenylcyclopropanes 136, convenient precursors of 2,3-methano-amino acids, are formed regioselectively in the azidation. On the other hand, the amination with dibenzylamin occurs exclusively on the less-substituted allylic end (Scheme 48) [70]. 

The synthesis of a,a-disubstituted amino acids is a difficult task and continues to attract attention. An efficient route that utilizes the ring-opening of an epoxide with azide has been reported <06TL9268>. Treatment of the sulfoxide substituted epoxide 23 with NaN3 provides intermediate azido aldehyde 24. This aldehyde was not isolated but oxidized to the acid and then the azide reduced to provide the a,a-disubstituted amino acid 25. The regioselectivity of this reaction was impressive with only one product reported. 

Tandem azidination- and hydroazidination-Hiiisgen [3 +2] cycloadditions of ynamides are regioselective and chemoselective, leading to the synthesis of chiral amide-substituted 1,2,3-triazoles <06OBC2679>. A series of diversely l-substituted-4-amino-l,2,3-triazoles 132 were synthesized by the copper-catalyzed [3+2] cycloaddition between azides 130 and ynamides 131 <06T3837>. 

V. V. Rostovtsev, L. G. Green, V. V. Fokin, and K. B. Sharpless, A stepwise Huisgen cycloaddition process Copper(I)-catalysed regioselective ligation of azides and terminal alkynes, Angew. Chem. Int. Ed., 41 (2002) 2596-2599. 

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