Azides, reduction with

The key [4+2] glycosylation followed by desilylation of the two phosphorylation sites resulted in a moderate 39% yield over two steps (Scheme 13.23). Phosphoramidite 153 was used to phosphorylate both of the resulting free hydroxy groups. A three-step protocol was applied for final deprotection, starting with azide reduction with Zn and acetic acid, then removal of cyanoethoxy phosphate protection with DBU, and finally... 

Azides are converted into amines by the Staudinger reaction. It is a very mild azide reduction with triphenylphosphine. ... 

Reductive cycttzation. Azide reduction with CrCla is followed by intramolecular addition of the resulting amine to a cross-conjugated dienone system. This efficient assemblage of fused-bridged tricycles has been incorporated as the final and key step in a synthesis of (—)-cylindricine. 

Yenil and coworkers " used 1,2-0-trichloroethylidene furanoses as convenient precursors for the synthesis of 6-amino sugars, also applied to 5-amino sugars, as shown in Scheme 23. Selective tosylation at C-6 (and C-5 for pentoses) followed by the displacement of primary tosylate with azide, reduction with triphenylphosphine and conventional acetylation gave the target compounds. The sugars with the amino group at the primary position were synthesized in 91% and 98% overall yield as depicted in Scheme 23. 

Mn04 Reduction with arsenate(III), ascorbic acid, azide, hydrazine, hydroxylamine, oxalic... 

A novel method for preparing amino heterocycles is illustrated by the preparation of 2-amino-5-methylthiophene (159). In this approach vinyl azides act as NH2 equivalents in reaction with aromatic or heteroaromatic lithium derivatives (82TL699). A further variant for the preparation of amino heterocycles is by azide reduction the latter compounds are obtained by reaction of lithio derivatives with p- toluenesulfonyl azide and decomposition of the resulting lithium salt with tetrasodium pyrophosphate (Scheme 66) (82JOC3177). 

The azido mesylate may also be reduced with lithium aluminum hydride in the same manner as previously described for iodo azide reductions. The sodium borohydride/cobalt(II)tris(a,a -dipyridyl)bromide reagent may be used, but it does not seem to offer any advantages over the more facile lithium aluminum hydride or hydrazine/Raney nickel procedures. 

The azidomethyl ether, used to protect phenols and prepared by the displacement of azide on the chloromethylene group, is cleaved reductively with LiAH4 or by hydrogenolysis (Pd-C, H2). It is stable to strong acids, permanganate, and free-radical brominations. ... 

Butyl alcohol in synthesis of phenyl 1-butyl ether, 46, 89 1-Butyl azidoacetate, 46, 47 hydrogenation of, 46, 47 1-Butyl chloroacetate, reaction with sodium azide, 46, 47 lre l-4-i-BUTYLCYCLOHEXANOL, 47,16 4-(-Butylcyclohexanonc, reduction with lithium aluminum hydride and aluminum chloride, 47, 17 1-Butyl hypochlorite, reaction with cy-clohexylamine, 46,17 l-Butylthiourea, 46, 72... 

The nucleophilic displacement reactions with azide, primary amines, thiols and carboxylatc salts arc reported to be highly efficient giving high (>95%) yields of the displacement product (Table 9.25). The latter two reactions are carried out in the presence of a base (DBU, DABCO). Radical-induced reduction with tin hydrides is quantitative. The displacement reaction with phenolates,61j phosphines,6M and potassium phthalimide608 gives elimination of HBr as a side reaction. 

Reductions with Trimethylsilyl Iodide, Trimethylsilyl Azide, and Trimethylsilyl Cyanide... 

Reductions with Trimethykitfi Iodide, Trimethykitfi Azide, and Trimethykitfi Cyanide 263... 

By combining several click reactions, click chemistry allows for the rapid synthesis of useful new compounds of high complexity and combinatorial libraries. The 2-type reaction of the azide ion with a variety of epoxides to give azido alcohols has been exploited extensively in click chemistry. First of all, azido alcohols can be converted into amino alcohols upon reduction.70 On the other hand, aliphatic azides are quite stable toward a number of other standard organic synthesis conditions (orthogonality), but readily undergo 1,3-dipolar cycloaddition with alkynes. An example of the sequential reactions of... 

An azide group can be transformed into a thiocyanate group by reduction with LiAlH4 followed by treatment with NJSl -thiocarbonyldiimidazole.[ 14]... 

The reduction of an azide group with triphenylphosphine in tetrahydrofuran by microwave heating at 130 °C for 5 min has been described by Kihlberg and colleagues (Scheme 6.152) [297]. The use of diethyl 4-(hydrazinosulfonyl)benzyl phosphonate as an in situ diazene precursor for the reduction of trisubstituted gem-diiodoalkenes to terminal geminal diodides under microwave conditions has also been reported [298],... 

Scheme 6.152 Reduction of an azide group with triphenylphosphine.

The pyrrolidine derivative 314, a skeletal analog of the antitumor antibiotic anisomycin, was synthesized from the acetal derivative 16b. The 5-OH group of 16b was tosylated and then substituted with sodium azide. Reduction (sodium borohydride) of the lactone group afforded an open-chain derivative, which was selectively protected to give 313. Hydrogenation of the azide function, followed by p-toluenesulfonylation, led to 314 by an intramolecular nucleophilic displacement (284). 

Warren and associates (18) have prepared a glycosyl azide derivative (15) of a heptasaccharide. This glycosyl azide was obtained from O-a-D-manno-pyranosyl-( 1 — 6)-0-[a-D-mannopyranosyl-( 1 — 3)-(9-a-D-mannopyrano syl-(l— 6)-0-a-D - mannopyranosyl - (1 — 3)] - O-fi- d - mannopyranosyl -(1 — 4) - O - (2 - acetamido - 2 - deoxy-/ -d-glucopyranosyl) - (1 — 4) - 2 -acetamido-2-deoxy-D-glucopyranose (12) by treatment of its peracetylated derivative 13 with trimethylsilyl trifuoromethanesulfonate, followed by reaction of the intermediary oxazoline 14 with trimethylsilyl azide. Reduction of the glycosyl azide 15 in the presence of Lindlar catalyst gave the glycosyla-mine derivative 16. The condensation of 16 with 1-tert-butyl N-(9-fluoren-... 

With both building blocks 103 and 109 in hand, the total synthesis of lb was completed as shown in Scheme 17. Coupling of acid 103 and alcohol 109 under Yamaguchi conditions to give ester 110 and subsequent desilylation followed by chemoselective oxidation provided hydroxy acid 111. Lactonization of the 2-thiopyridyl ester derived from 111 in the presence of cupric bromide produced the macrodiolide 112 in 62% yield, which was finally converted to pamamycin-607 (lb) via one-pot azide reduction/double reductive AT-methylation. In summary, 36 steps were necessary to accomplish the synthesis of lb from alcohols 88 and 104, sulfone 91, ketone 93, and iodide rac-97. 

Benzyltriazoles are readily available through cycloaddition reactions of benzyl azide. The benzyl group can be removed by reduction with... 

Reductions with aluminum are carried out almost exclusively with aluminum amalgam. This is prepared by immersing strips of a thin aluminum foil in a 2% aqueous solution of mercuric chloride for 15-60 seconds, decanting the solution, rinsing the strips with absolute ethanol, then with ether, and cutting them with scissors into pieces of approximately 1 cm [141,142]. In aqueous and non-polar solvents aluminum amalgam reduces cumulative double bonds [143], ketones to pinacols [144], halogen compounds [145], nitro compounds [146, 147], azo compounds [148], azides [149], oximes [150] and quinones [151], and cleaves sulfones [141, 152, 153] and phenylhydrazones [154] (Procedure 30, p. 212). 

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