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Ketones and azides

Table 31 Synthesis of tetrazoles 5 from ketones and azides <2004SOS(13)861 >... Table 31 Synthesis of tetrazoles 5 from ketones and azides <2004SOS(13)861 >...
Fig. 10.3-16 Introduction of unnatural functional groups through posttranslational modification, (a) Ketones and azides can be introduced onto cell surfaces by feeding cells with unnatural sialic acid precursors, such as mannosamine derivatives 40b and c. These are incorporated into cell-surface glycans, which can be further elaborated using additional bioconjugation reactions, (b) Specific amino acid sequences can be modified using biotin ligase. Interestingly, ketobiotin" is also recognized as a substrate for the enzyme, allowing a... Fig. 10.3-16 Introduction of unnatural functional groups through posttranslational modification, (a) Ketones and azides can be introduced onto cell surfaces by feeding cells with unnatural sialic acid precursors, such as mannosamine derivatives 40b and c. These are incorporated into cell-surface glycans, which can be further elaborated using additional bioconjugation reactions, (b) Specific amino acid sequences can be modified using biotin ligase. Interestingly, ketobiotin" is also recognized as a substrate for the enzyme, allowing a...
Olsen and Pedersen have investigated extensively the reactions of ketones and azides in the presence of potassium l-butoxide (Eq. 12). The yield of the intermediate 5-hydroxy-1,2,3-triazolines (3.1-9) were generally good, but the dehydration process varied from good (R" = PhCHz) to poor (R" = Ph). Acetone gave a fair yield of the 4-(2-propenyl) product (3.1-10) along... [Pg.65]

Scheme 4.34 Organocatalytic 1,3-dipolar cycloaddition reactions of ketones and azides with water as a solvent. Scheme 4.34 Organocatalytic 1,3-dipolar cycloaddition reactions of ketones and azides with water as a solvent.
The Schmidt reaction of ketones works best with aliphatic and alicyclic ketones alkyl aryl ketones and diaryl ketones are considerably less reactive. The reaction is only seldom applied to aldehydes as starting materials. The hydrazoic acid used as reagent is usually prepared in situ by treatment of sodium azide with sulfuric acid. Hydrazoic acid is highly toxic, and can detonate upon contact with hot laboratory equipment. [Pg.253]

The aziridine aldehyde 56 undergoes a facile Baylis-Hillman reaction with methyl or ethyl acrylate, acrylonitrile, methyl vinyl ketone, and vinyl sulfone [60]. The adducts 57 were obtained as mixtures of syn- and anfz-diastereomers. The synthetic utility of the Baylis-Hillman adducts was also investigated. With acetic anhydride in pyridine an SN2 -type substitution of the initially formed allylic acetate by an acetoxy group takes place to give product 58. Nucleophilic reactions of this product with, e. g., morpholine, thiol/Et3N, or sodium azide in DMSO resulted in an apparent displacement of the acetoxy group. Tentatively, this result may be explained by invoking the initial formation of an ionic intermediate 59, which is then followed by the reaction with the nucleophile as shown in Scheme 43. [Pg.117]

In addition to the Beckmann reaction, the Schmidt rearrangement is used to generate M-alkylated lactams, too. Alkyl azides 231 react with the cyclic ketones (and aldehydes) in the presence of proton or Lewis acids. On running the inter-molecular reactions, in most cases symmetric ketals 230 have been converted... [Pg.159]

Nitrilium salts, e.g., 66, prepared from the alkylation of nitriles, react with sodium azide to yield 1,5-disubstituted tetrazoles, e.g., 67 (Scheme 7).121 The Schmidt reaction,122 a versatile method for the preparation of 1,5-disubstituted tetrazoles from ketones and hydrazoic acid, can now be regarded as a special case of azide addition to nitrilium salts.123... [Pg.223]

Sodium hydrogen telluride, (NaTeH), prepared in situ from the reaction of tellurium powder with an aqueous ethanol solution of sodium borohydride, is an effective reducing reagent for many functionalities, such as azide, sulfoxide, disulfide, activated C=C bonds, nitroxide, and so forth. Water is a convenient solvent for these transformations.28 A variety of functional groups including aldehydes, ketones, olefins, nitroxides, and azides are also reduced by sodium hypophosphite buffer solution.29... [Pg.219]

The nucleophilic addition of alcohols [130, 204-207], phenols [130], carboxylates [208], ammonia [130, 209], primary and secondary amines [41, 130, 205, 210, 211] and thiols [211-213] was used very early to convert several acceptor-substituted allenes 155 to products of type 158 and 159 (Scheme 7.25, Nu = OR, OAr, 02CR, NH2, NHR, NRR and SR). While the addition of alcohols, phenols and thiols is generally carried out in the presence of an auxiliary base, the reaction of allenyl ketones to give vinyl ethers of type 159 (Nu = OMe) is successful also by irradiation in pure methanol [214], Using widely varying reaction conditions, the addition of hydrogen halides (Nu= Cl, Br, I) to the allenes 155 leads to reaction products of type 158 [130, 215-220], Therefore, this transformation was also classified as a nucleophilic addition. Finally, the nucleophiles hydride (such as lithium aluminum hydride-aluminum trichloride) [211] and azide [221] could also be added to allenic esters to yield products of type 159. [Pg.379]

Aqueous solutions of vanadous chloride (vanadium dichloride) are prepared by reduction of vanadium pentoxide with amalgamated zinc in hydrochloric acid [213], Reductions are carried out in solution in tetrahydrofuran at room temperature or under reflux. Vanadiiun dichloride reduces a-halo ketones to ketones [214], a-diketones to acyloins [215], quinones to hydroquinones [215], sulfoxides to sulfides [216] and azides to amines [217] (Procedure 40, p. 215). [Pg.31]

Hydriodic acid is a reagent of choice for reduction of alcohols [225], some phenols [225], some ketones [227, 228], quinones [222], halogen derivatives [22S, 229], sulfonyl chlorides [230], diazo ketones [231], azides [232], and even some carbon-carbon double bonds [233]. Under very drastic conditions at high temperatmes even polynuclear aromatics and carboxylic acids can be reduced to saturated hydrocarbons but such reactions are hardly ever used nowadays. [Pg.32]

Another approach for the synthesis of networks relies on the polycondensation of multifunctionalized polyesters with the appropriate multifunctionalized agent, provided that one of the partner is at least tri-functionalized. Toward this end, several reaction have been reported, such as the Michael addition of amines onto acrylates [184], the coupling of ketones and oxyamines [185], the click copper(II)-catalyzed azide-alkyne cycloaddition [186], and esterification reactions [25, 159, 187]. Interestingly, if esterification reactions are used, the crosslinks are then degradable. [Pg.207]

Similarly, benzhy dr azide (324) and solidified hydrazine (163) react quantitatively in the solid state with aldehydes, ketones, and other carbonyl compounds. Thus, quantitative yields of the hydrazones 325 and fully specific 327... [Pg.153]

Kwart and Kahn have found that benzenesulfonyl azide forms a complex with freshly reduced copper powder.189 190 This copper azide complex decomposes at a lower temperature than the pure sulfonyl azide. In refluxing methanol, benzene-sulfonamide (27) is isolated as the major product. In the presence of dimethyl sulfoxide, N-benzenesulfonyldimethyl-sulfoximine (28) is obtained in almost quantitative yield. In cyclohexene solution benzenesulfonamide (29), N-benzenesul-fonyl-7-azabicyclo[4.1.0]heptane (30), and 1-cyclohexenylben-zenesulfonamide (31) are isolated as the main reaction products. According to the authors, Schemes VII and VIII represent an acceptable interpretation of the experimental data.189 190 In pure alcohol, the decomposition should occur by two competitive reactions (Scheme VII) producing benzenesulfonamide together with a ketone and oxidized copper. These last two products have indeed been observed in the reaction mixture. In the presence of DMSO, it seems that a copper-nitrene intermediate is formed which is trapped by DMSO. In cyclohexene solution, the authors have observed that the aziridine (30) disappears from the product composition when DMSO is added. The yield of enamine 31, however, is... [Pg.8]

Huisgen has stated that the driving force behind the 1,3-dipolar addition is stronger the more the loss of T-bond energy in the reactants is overcompensated by the energy of the two new bond energy is O-N < N-N < C-N, azides do not add at all to aldehydes and ketones and add with more difficulty to nitriles than to olefins. Phenyl azide, for instance, adds preferentially to the C-C double bond of acrylonitrile.194 103 This is also the reason why the condensation products of aldehydes and primary amines, which essentially exist in the Schiff-base structure 46a, react in the tautomeric enamine form 46b.2 ... [Pg.17]

Allenic ketones and esters are found to react with azides by addition, preferentially to the activated double bond in the a, -position to the ester or keto group, although no regioselectivity is observed.254 Allenic nitriles undergo similar additions, and unstable methylene triazolines are obtained (Scheme 78).301... [Pg.271]

Nitrilium ions are generally indicated as discrete intermediates in the Beckmann rearrangement of oximes (equation 37, Y = OH2) and in the Schmidt rearrangement (equation 37, Y = N2) of ketones and aldehydes with hydrogen azide. The first stage of these reactions has been defined as an ionization by rearrangement process through a transition state of type 183 (Smith, 1963). [Pg.271]

Ge, Sn) double-bond compounds, while benzaldehyde or benzophenone react with M=N double bonds to give the corresponding [2 -f 2] adducts regioselectively with the formation of M-O bonds. In addition, the [4 + 2] cycloaddition reaction of azametaUenes and phosphametallenes with a,/3-unsaturated aldehydes and ketones have been reported to give the six-membered ring compounds. Other cycloaddition using 1,3-dipoles such as nitrileoxide and azide derivatives were reported. The reactivities of M=E double bond are summarized in Scheme... [Pg.5893]

Lead acetate azides, Pb(OAc)4 (N3)n, prepared in situ from lead tetraacetate and azidotrimethylsilane, react with alkenes to yield a variety of products, depending on the structure of the alkene 1,2-diazides. 1,2-acetoxy azides, a-azido ketones, allylic azides, and <5-oxo nitriles (by the oxidative cleavage of cyclohexene rings)97. The diazides and acetoxy azides are formed by preferential syn addition, but the diastereoselectivity (up to 3 1) is far from satisfactory with both acyclic and cyclic alkenes98,99. [Pg.717]


See other pages where Ketones and azides is mentioned: [Pg.163]    [Pg.387]    [Pg.391]    [Pg.2179]    [Pg.144]    [Pg.108]    [Pg.195]    [Pg.218]    [Pg.163]    [Pg.387]    [Pg.391]    [Pg.2179]    [Pg.144]    [Pg.108]    [Pg.195]    [Pg.218]    [Pg.84]    [Pg.958]    [Pg.439]    [Pg.466]    [Pg.20]    [Pg.21]    [Pg.322]    [Pg.84]    [Pg.84]    [Pg.151]    [Pg.253]    [Pg.246]    [Pg.75]    [Pg.129]    [Pg.386]    [Pg.918]   


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Ketones azidation

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