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Sulfides, 0-nitro

Nitro sulfides are conveniently prepared by simply mixing carbonyl compounds, nitroal-kanes, and thiols in the presence of triethylamine.2 P-Nitro sulfide, which is used for synthesis of rf-biotin, is prepared by this procedure (Eq. 4.2).3... [Pg.71]

Nitro sulfides are useful intermediates for the preparation of various heterocycles containing sulfur atoms. Synthetic applications are demonstrated in Schemes 4.25 and 4.3,6 in which biotin is prepared via cycloaddition of nitrile oxides (see Chapter 8). [Pg.72]

Substitution of fi-nitro sulfides.2 (3-Nitro sulfides in the presence of a Lewis acid undergo displacement reactions with either allyl- or cyanotrimethylsilane. The reaction is considered to involve an episulfonium intermediate, which is then substituted at the more positive carbon (equation I). The reaction proceeds with retention of configuration, and anti (J-nitro sulfides react much more rapidly than... [Pg.107]

Treatment of fi-nitro acetates with thiols in the presence of base is also a simple method for the preparation of fi-nitro sulfides fEq. 4.3). [Pg.71]

Tin radicM-induced eliminadon from fi-nitro sulfones or fi-nitro sulfides proceeds in a stereoselecdve way to give ruin eliminadon products. " Whendiastereoraers of fi-nitro sulfones can be separated, each diastereoraer gives (Ey and fZ -alkenes selecdvely fEq. 7.111. Such... [Pg.216]

Stereoselective preparation of CEi-allyl alcohols via radical elimination from ruin -y-phenylthio-fi-nkro alcohols has been reported. The requisiteruin -fi-nitro sulfides are prepared by protonadon of nitronates at low temperanire Isee Chapter 4, and subsequent treatment v/ith Bu-vSnH induces and eliminadon to givelE -alkenes selecdvely IseeEq. 7.112. Unfortunately, it is difficult to get the pure syu-fi-nitro sulfides. Treatment of a rruxnire of syu- and ruin -fi-nitrosulfides v/ith Bu- SnH results in formadon of a rruxnire of (Ey and lZ -alkenes. [Pg.217]

The base-catalyzed joint reaction of nitroalkenes with thiophenol in the presence of aldehydes gives y-phenylthio-P-nitro alcohols in one pot (Eq. 4.5).8 The joint reaction of nitroalkenes with thiols and a,p-unsaturated nitriles (or esters) has also been achieved. (Eq. 4.6).9 P-Nitro sulfides thus prepared show unique reactivity toward nucleophiles or tin radicals. The nitro... [Pg.72]

Ono and Kamimura have found a very simple method for the stereo-control of the Michael addition of thiols, selenols, or alcohols. The Michael addition of thiolate anions to nitroalkenes followed by protonation at -78 °C gives anti-(J-nitro sulfides (Eq. 4.8).11 This procedure can be extended to the preparation of a/jti-(3-nitro selenides (Eq. 4.9)12 and a/jti-(3-nitro ethers (Eq. 4.10).13 The addition products of benzyl alcohol are converted into P-amino alcohols with the retention of the configuration, which is a useful method for anri-P-amino alcohols. This is an alternative method of stereoselective nitro-aldol reactions (Section 3.3). The anti selectivity of these reactions is explained on the basis of stereoselective protonation to nitronate anion intermediates. The high stereoselectivity requires heteroatom substituents on the P-position of the nitro group. The computational calculation exhibits that the heteroatom covers one site of the plane of the nitronate anion.14... [Pg.73]

Combining, in tandem, the nitro-aldol reaction with the Michael addition using thiophenol is a good method for the preparation of P-nitro sulfides as shown in Eqs. 4.2 and 4.3. This reaction is applied to a total synthesis of tuberine. Tuberine is a simple enamide isolated from Streptomyces amakusaensis and has some structural resemblance to erbastatin, an enamide which has received much attention in recent years as an inhibitor of tyrosine-specific kinases. The reaction of p-anisaldehyde and nitromethane in the presence of thiophenol yields the requisite P-nitro sulfide, which is converted into tuberine via reduction, formylation, oxidation, and thermal elimination of... [Pg.79]

Nitroalkenes are generally prepared by the substitution reaction of [i-nitro sulfides and sulfoxides with a variety of carbon nucleophiles via an addition-elimination sequence. This method is particularly useful for the preparation of cyclic nitroalkenes (Eq. 4.100).126... [Pg.102]

Ono and coworkers have extended the radical elimination of v/c-dinitro compounds to P-nitro sulfones151 and P-nitro sulfides.138,152 As P-nitro sulfides are readily prepared by the Michael addition of thiols to nitroalkenes, radical elimination of P-nitrosulfides provides a useful method for olefin synthesis. For example, cyclohexanone is converted into allyl alcohol by the reaction shown in Eq. 7.110. Treatment of cyclohexanone with a mixture of nitromethane, PhSH, 35%-HCHO, TMG (0.1 equiv) in acetonitrile gives ahydroxymethylated-P-nitro sulfide in 68% yield, which is converted into the corresponding allyl alcohol in 86% yield by the reaction with Bu3SnH.138 Nitro-aldol and the Michael addition reactions take place sequentially to give the required P-nitro sulfides in one pot. [Pg.216]

Tin radical-induced elimination from P-nitro sulfones or P-nitro sulfides proceeds in a stereoselective way to give anti elimination products.153 When diastereomers of P-nitro sulfones can be separated, each diastereomer gives ( )- and (Z)-alkenes selectively (Eq. 7.111). Such... [Pg.216]

Stereoselective preparation of ( )-allyl alcohols via radical elimination from anti-j-phenylthio-P-nitro alcohols has been reported.154 The requisite anti-P-nitro sulfides are prepared by protonation of nitronates at low temperature (see Chapter 4), and subsequent treatment with Bu3SnH induces anti elimination to give (E)-alkenes selectively (see Eq. 7.112). Unfortunately, it is difficult to get the pure yyw-P-nitro sulfides. Treatment of a mixture of syn- and anti-P-nitrosulfides with Bu3SnH results in formation of a mixture of (E)- and (Z)-alkenes. [Pg.217]

The application of nitro-sulfide rearrangements in heterocycle synthesis has been more recently reported [75]. [Pg.191]

Another interesting use of a thienium dienophile is outlined in equation (97). The initial Diels-Alder adduct was not isolated in these systems but was inferred based upon the nitro sulfide actually produced. [Pg.440]

In general, peroxomonosulfates have fewer uses in organic chemistry than peroxodisulfates. However, the triple salt is used for oxidizing ketones (qv) to dioxiranes (7) (71,72), which in turn are useful oxidants in organic chemistry. Acetone in water is oxidized by triple salt to dimethyldioxirane, which in turn oxidizes alkenes to epoxides, polycycHc aromatic hydrocarbons to oxides and diones, amines to nitro compounds, sulfides to sulfoxides, phosphines to phosphine oxides, and alkanes to alcohols or carbonyl compounds. [Pg.95]

Zinin Reduction. The method of reducing aromatic nitro compounds with divalent sulfur is known as the Zinin reduction (57). This reaction can be carried out in a basic media using sulfides, polysulfides, or hydrosulfides as the reducing agent. These reactions can be represented as follows when the counter ion is sodium ... [Pg.262]

The Zinin reduction is also usehil for the reduction of aromatic nitro compounds to amines in the laboratory. It requires no special equipment, as is the case with catalytic hydrogenations, and is milder than reductions with iron and acid. Usually ammonium or alkah sulfides, hydrosulftdes or polysulftdes are used as the reactant with methanol or ethanol as the solvent. [Pg.263]

Arninobenzoyl-L-glutarnic acid (12) is obtained by condensation of -nitrobenzoyl chloride [122-04-3] (18) with L-glutamic acid [56-86-0] (19) under Schotten-Baumann conditions. This is followed by reduction of the nitro group with either sodium hydrogen sulfide (29) or by electrochemical methods (30). [Pg.38]

Sulfur Dyes. These dyes are synthesized by heating aromatic amines, phenols, or nitro compounds with sulfur or, more usually, alkah polysulfides. Unlike most other dye types, it is not easy to define a chromogen for the sulfur dyes (qv). It is likely that they consist of macromolecular stmctures of the phenothiazone-thianthrone type (72), in which the sulfur is present as (sulfide) bridging links and thiazine groups (1). [Pg.284]


See other pages where Sulfides, 0-nitro is mentioned: [Pg.70]    [Pg.73]    [Pg.107]    [Pg.70]    [Pg.71]    [Pg.73]    [Pg.73]    [Pg.216]    [Pg.70]    [Pg.73]    [Pg.107]    [Pg.91]    [Pg.59]    [Pg.402]    [Pg.297]    [Pg.454]    [Pg.375]    [Pg.108]    [Pg.119]    [Pg.257]    [Pg.469]    [Pg.169]    [Pg.172]    [Pg.435]    [Pg.288]    [Pg.288]    [Pg.288]   
See also in sourсe #XX -- [ Pg.71 , Pg.72 , Pg.79 , Pg.212 , Pg.213 , Pg.216 ]




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5,-3-Nitro-2-pyridinesulfenyl sulfides

Ammonium sulfide nitro group reduction

Hydrogen sulfide nitro azides

Hydrogen sulfide nitro compounds

Hydrogen sulfide reduction, aromatic nitro compounds

Nitro-sulfide rearrangements

P-Nitro sulfides

S-3-Nitro-2-pyridinesulfenyl sulfide

Sodium sulfide nitro alcohols

Sodium sulfide nitro amines

Sodium sulfide nitro compounds

Sulfide aromatic nitro compounds

Sulfides, 3-nitro synthesis

Sulfides, P-nitro via alkenes

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