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Protecting groups oxidation-labile

A variety of cleavage conditions have been reported for the release of amines from a solid support. Triazene linker 52 prepared from Merrifield resin in three steps was used for the solid-phase synthesis of aliphatic amines (Scheme 22) [61]. The triazenes were stable to basic conditions and the amino products were released in high yields upon treatment with mild acids. Alternatively, base labile linker 53 synthesized from a-bromo-p-toluic acid in two steps was used to anchor amino functions (Scheme 23) [62]. Cleavage was accomplished by oxidation of the thioether to the sulfone with m-chloroperbenzoic acid followed by 13-elimination with a 10% solution of NH4OH in 2,2,2-trifluoroethanol. A linker based on l-(4,4 -dimethyl-2,6-dioxocyclohexylidene)ethyl (Dde) primary amine protecting group was developed for attaching amino functions (Scheme 24) [65]. Linker 54 was stable to both acidic and basic conditions and the final products were cleaved from the resin by treatment with hydrazine or transamination with ra-propylamine. [Pg.198]

By a combination of acid-labile S-protecting groups, such as Trt or Mob, with the acid-stable 5-Acm protection consecutive formation of two disulfide bonds can be achieved by two very mild oxidation procedures namely air oxidation followed by acid-catalyzed DMSO oxidation... [Pg.118]

Protecting groups, including very labile ones, withstand the action of Collins reagent. The very labile primary TMS ethers are transformed into the corresponding aldehydes.103 As secondary and tertiary TMS ethers resist the action of Collins reagent, a protocol involving per-silylation followed by Collins oxidation allows the selective oxidation of primary alcohols in the presence of secondary ones.104... [Pg.24]

The synthetic scheme often applied for the preparation of 3-aryl-3-(trifluoromethyl)-3//-diazirine nowadays is shown in Scheme 5a [60]. It starts by lithiation of an aryl bromide (38), which subsequently reacts with /V-ftrifluoroacetyl)piperidine 39 (easily prepared from trifluoroacetic anhydride and piperidine) under the formation of trifluoroacetophenone 40. Next, the ketone is converted into the corresponding oxime 41, after which the hydroxyl group is converted into its tosylate (42). Reaction with liquid ammonia (usually under pressure) allows the installment of the diaziridine group (43). Subsequent oxidation with iodine finally results in the diazirine (44). This five-step reaction sequence is especially compatible with acid-labile protective groups, which are often used to protect and/or install functionalities at the R position. [Pg.96]

Cleavage of acid-labile protective groups.1 The reaction of H202 (70%, FMC) and CI3CCOOH in CH2C12/(-butyl alcohol converts a dimethyl acetal (1) into a hydroperoxy methyl acetal (a), which can be isolated but which for convenience (and safety) is reduced to the aldehyde 2 in 80% overall yield. The same conditions can effect oxidative cleavage of tetrahydropyranyl and trityl ethers. [Pg.168]

See other pages where Protecting groups oxidation-labile is mentioned: [Pg.155]    [Pg.321]    [Pg.3]    [Pg.35]    [Pg.229]    [Pg.229]    [Pg.235]    [Pg.3]    [Pg.55]    [Pg.542]    [Pg.84]    [Pg.125]    [Pg.321]    [Pg.9]    [Pg.103]    [Pg.114]    [Pg.115]    [Pg.115]    [Pg.116]    [Pg.129]    [Pg.188]    [Pg.12]    [Pg.386]    [Pg.386]    [Pg.389]    [Pg.536]    [Pg.672]    [Pg.288]    [Pg.480]    [Pg.55]    [Pg.236]    [Pg.166]    [Pg.234]    [Pg.27]    [Pg.28]    [Pg.3]    [Pg.251]    [Pg.267]    [Pg.240]    [Pg.62]    [Pg.205]    [Pg.218]    [Pg.253]    [Pg.287]    [Pg.80]   
See also in sourсe #XX -- [ Pg.64 ]



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Group oxides

Labile

Labile group

Lability

Oxidizing group

Protective oxidation

Protective oxides

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