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Tert reduction

A number of alternative multi-step procedures for the synthesis of a-tert-alkyl ketones are known, none of which possess wide generality. A previous synthesis of 2-tert-penty1cyclopentanone involved reaction of N-1-cyclopentenylpyrrol 1 dine with 3-chloro-3-methy1-l-butyne and reduction of the resulting acetylene (overall yield 46 ). However, all other enamines tested afford much lower yields. Cuprate addition to unsaturated ketones may be useful in certain cases. Other indirect methods have been briefly reviewed. ... [Pg.99]

The parent system 4 has also been jnepared employing a double reductive ring closure of a dinitrodiphenylbenzene derivative (Scheme 25). The required starting material, 195, was prepared using a palladium-catalyzed coupling of 1,4-dibromo-2,5-dinittobenzene with phenylboronic acid and after reaction with tri-ethylphosphite in hot tert-butylbenzene, 4 could be isolated in a moderate yield (92JHC1237). [Pg.40]

Reduction with lithium aluminum hydride allows a differentiation from the isomeric nitrones. Whereas 2-tert-butyl-3-phenyloxazirane (9) gives benzylidene-tert-butylamine [Eq. (10)], reduction of the isomeric nitrone leads to iV-benzyl-xV-fert-butylbydroxylaminc [Eq. [Pg.92]

Reductive N-O bond cleavage of perhydropyrido[l,2-6][l,2]oxazine 10 with Zn dust furnished 2-(3-hydroxypentyl)piperidine 11 (96JCS(P1)1113). Similarly, 2/S,4u S,5Q ,7/0,8yS-H-5-benzyloxy-7-(tert-butyldiphenylsilyloxy)-2-[2-(methoxymethoxy)ethyl]-8-methylperhydropyrido[l,2-6][l,2]oxazine gave the respective ring-opened piperidine (OOOL2955, 01JOC3338). [Pg.226]

Step D Chemical Reduction Preparation of 3-Morpholino-4-(3-tert-Butylamino-2-Hydroxy-propoxyl-l,2,5-Thiadiazole — The 3-morpholino-4-(3-tert-butylamino-2-oxopropoxy)-1,2,5-thiadiazole (0.01 mol) is dissolved in isopropanol (10 ml). To the solution is added sodium borohydride in portions until the initial evolution of heat and gas subsides. The excess sodium borohydride is destroyed by addition of concentrated hydrochloric acid until the mixture remains acidic. The precipitate of sodium chloride is removed, ether is added, and the solution is concentrated to crystallization. The solid material is removed by filtration and dried thus providing 3-morpholino-4-(3-tert-butylamino-2-hydroxypropoxy)-1,2,5-thiadiazole, MP 161° to 163°C (as hydrochloride). [Pg.1490]

Alternative Step D Reduction with a Reductate — Sucrose (1 kg) is dissolved in water (9 liters) in a 20-liter bottle equipped with a gas trap. Baker s yeast Saccharomyces cerevisiae, 1 kg) is made into a paste with water (1 liter) and added to the sucrose solution with stirring. After lively evolution of gas begins (within 1 to 3 hours), 3-morpholino-4-(3-tert-butylamino-2-oxopropoxy)-1,2,5-thiadiazole hydrogen maleate [1.35 mols, prepared by reaction of the 3-morpholino-4-(3-tert-butylamino-2-oxopropoxy)-1,2,5-thiadiazole with an equimolar quantity of maleic acid in tetrahydrofuran]. The mixture is allowed to stand until fermentation subsides, after which the bottle is kept in a 32°C incubator until all fermentation has ended (in approximately 1 to 3 days). The yeast is filtered off with addition of diatomaceous earth and the filtrate is evaporated to dryness to give S-3-mor-pholino-4/3-tert-butylamino-2-hydroxypropoxy)-1,2,5-thiadiazole, MP 195° to 198°C (as hydrogen maleate), according to U.S. Patent 3,619,370. [Pg.1490]

From intermediate 12, the path to key intermediate 7 is straightforward. Reductive removal of the benzyloxymethyl protecting group in 12 with lithium metal in liquid ammonia provides diol 27 in an overall yield of 70% from 14. Simultaneous protection of the vicinal hydroxyl groups in 27 in the form of a cyclopentanone ketal is accompanied by cleavage of the tert-butyldimethylsilyl ether. Treatment of the resultant primary alcohol with /V-bromosuccini-mide (NBS) arid triphenylphopshine accomplishes the formation of bromide 7, the central fragment of monensin, in 71 % yield from 27. [Pg.239]

Intermediate 10 must now be molded into a form suitable for coupling with the anion derived from dithiane 9. To this end, a che-moselective reduction of the benzyl ester grouping in 10 with excess sodium borohydride in methanol takes place smoothly and provides primary alcohol 14. Treatment of 14 with methanesulfonyl chloride and triethylamine affords a primary mesylate which is subsequently converted into iodide 15 with sodium iodide in acetone. Exposure of 15 to tert-butyldimethylsilyl chloride and triethylamine accomplishes protection of the /Mactam nitrogen and leads to the formation of 8. Starting from L-aspartic acid (12), the overall yield of 8 is approximately 50%, and it is noteworthy that this reaction sequence can be performed on a molar scale. [Pg.253]

If the reaction just described is conducted in the presence of a suitable hydrogen atom donor such as tri-n-butyltin hydride or tert-butyl hydrosulfide, reductive decarboxylation occurs via a radical chain mechanism to give an alkane (see 125—>128, Scheme 24). Carboxylic acids can thus be decarboxylated through the intermediacy of their corresponding thiohydroxamate esters in two easily executed steps. In this reducjtive process, one carbon atom, the carbonyl carbon, is smoothly excised... [Pg.406]

Treatment with two equivalents of tert-butyl hypochlorite and subsequent reduction with sodium/naphthalene. [Pg.559]

Metalated epoxides can react with organometallics to give olefins after elimination of dimetal oxide, a process often referred to as reductive alkylation (Path B, Scheme 5.2). Crandall and Lin first described this reaction in their seminal paper in 1967 treatment of tert-butyloxirane 106 with 3 equiv. of tert-butyllithium, for example, gave trans-di-tert-butylethylene 110 in 64% yield (Scheme 5.23), Stating that this reaction should have some synthetic potential , [36] they proposed a reaction pathway in which tert-butyllithium reacted with a-lithiooxycarbene 108 to generate dianion 109 and thence olefin 110 upon elimination of dilithium oxide. The epoxide has, in effect, acted as a vinyl cation equivalent. [Pg.157]

SYNTHESIS AND RU(II)-BINAP REDUCTION OF A KETOESTER DERIVED FROM HYDROXYPROLINE 2(S)-(p tert-BUTOXYCARBONYL-a-(S) and a-(R)-HYDROXYETHYL)-4(R)-HYDROXYPYRROLIDINE-1 -CARBOXYLIC ACID, tert-BUTYL... [Pg.93]

In an alternative approach, the isomeric unsaturated pyrrolidine or piperidine aldoximes 245 a and 245b were prepared and subjected to lOOC reaction affording 246a and 246b, respectively (Eq. 28). Esterification of 240 followed by N-tert-BOC protection and DIBALH reduction provided aldehyde 244 (X = 0) which was subjected to Wittig olefination. Introduction of a two carbon aldoxime chain on N in 244 (X = CH2) was carried out by alkylation with Et a-bromoacetate after deprotection of the N atom in 244. Reduction and oxima-tion led to 245. [Pg.35]

The asymmetric synthesis of unsymmetrical vicinal diamines by samarium diiodide induced reductive coupling of nitrones derived from aUphatic aldehydes with optically pure N-tert-butanesulfinyl aromatic imines has been recently reported [41]. For example, the reaction between nitrone 55 and... [Pg.14]

See other pages where Tert reduction is mentioned: [Pg.276]    [Pg.234]    [Pg.19]    [Pg.210]    [Pg.215]    [Pg.81]    [Pg.13]    [Pg.83]    [Pg.17]    [Pg.108]    [Pg.436]    [Pg.492]    [Pg.499]    [Pg.620]    [Pg.664]    [Pg.666]    [Pg.766]    [Pg.771]    [Pg.777]    [Pg.295]    [Pg.8]    [Pg.827]    [Pg.170]    [Pg.306]    [Pg.203]    [Pg.219]    [Pg.222]    [Pg.58]    [Pg.1173]    [Pg.1547]    [Pg.60]    [Pg.15]   
See also in sourсe #XX -- [ Pg.590 ]



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