Acetonides stable

In all cases examined the ( )-isomers of the allylic alcohols reacted satisfactorily in the asymmetric epoxidation step, whereas the epoxidations of the (Z)-isomers were intolerably slow or nonstereoselective. The eryfhro-isomers obtained from the ( )-allylic alcohols may, however, be epimerized in 95% yield to the more stable tlireo-isomers by treatment of the acetonides with potassium carbonate (6a). The competitive -elimination is suppressed by the acetonide protecting group because it maintains orthogonality between the enolate 7i-system and the 8-alkoxy group (cf the Baldwin rules, p. 316). 

Compounds having the 16,17 ketal, eg, budesonide, amcinonide, fluocinonide, halcinonide, triamcinolone acetonide, and flurandrenohde, also undergo metabohsm by routes that parahel that of cortisol metabohsm. Unsymmetrical acetals such as budesonide are also metabolized by routes not available to the more metabohcahy stable symmetrical 16a,17a-isopropyhdiene-dioxysubstituted compounds (desonide, flunisohde, and triamcinolone acetonide). Isozymes within the cytochrome P450 3A subfamily are thought to catalyze the metabohsm of budesonide, resulting in formation of 16a-hydroxyprednisolone and 6P-hydroxybudesonide (19,20) (Fig. 3) in addition to the more common metabohc steps (oxidation via reduction of A, etc). 

The C. 100-C. 101 diol group, protected as an acetonide, was stable to the Wit-tig reaction used to form the cis double bond at C.98-C.99, and to all the conditions used in the buildup of segment C.99-C. 115 to fully protected palytoxin carboxylic acid (Figure 1,1). 

Me3SiBr, CH2CI2, 0°, 8-9 h, 80-97% yield.This reagent also cleaves the acetonide, THP, trityl, and r-BuMe2Si groups. Esters, methyl and benzyl ethers, r-butyldiphenylsilyl ethers, and amides are reported to be stable. 

NCSBu2Sn)20 1%, THF, H20. Acetonides and TMS ethers are also cleaved under these conditions, but TBDMS, MTM, and MOM groups are stable. This catalyst has also been used to effect transesterifications. ... 

Dichlorodicyanoquinone (DDQ), CH2CI2, H2O, 40 min, it, 84-93% yield.This method does not cleave simple benzyl ethers. This method was found effective in the presence of a boronate. The following groups are stable to these conditions ketones, epoxides, alkenes, acetonides, to-sylates, MOM ethers, THP ethers, acetates, benzyloxymethyl (BOM) ethers, and TBDMS ethers. 

Acetonides are quite stable to base, and to oxidation, dehydration and acylation reactions carried out in pyridine. They are cleaved by acid hydrolysis. The 17,21-acetonides of 17a,21-dihydroxy-20-keto steroids and related acetals are split by very mild acid conditions. ... 

Acetonides of 21-hydroxy- and 21-desoxy-20-ketones and related acetals are often stable to dilute boiling mineral acid " but in certain instances, acetonides are cleaved in modest yield by 0,5 A hydrochloric acid in... 

Acetonides are the most suitable base-stable protecting group for 16,17-cis-diols. They can be readily prepared from 16,17-disecondary alcohols with either the a- or j5-configurations. ... 

MgBr2-Et20, Mc2S, CH2CI2, it, 75-96% yield. " The failure of this substrate to undergo cleavage with the typical conditions was attributed to the presence of the 1,3-diene. Acetonides and TBDMS ethers were found to be stable. 

A nitrophenylsulfenate, cleaved by nucleophiles under very mild conditions, was developed as protection for a hydroxyl group during solid-phase nucleotide synthesis. The sulfenate ester is stable to the acidic hydrolysis of acetonides. ... 

Although acetonides are generally considered stable to reagents like BH3, on occasion they can undergo unexpected side reactions, such as the cleavage observed during a hydroboration. ... 

Cp2Zr, then water, 66% yield.O-Allyl ethers are cleaved at a faster rate THP, acetonide. Bn ethers, and benzoates are stable. 

Rychnovsky demonstrated that the latter explanation is correct in reductive decyanations, the intermediate radical equilibrates to the most stable (axial) radical, and this equilibration determines the stereochemical outcome. Reductive decyanation of a 52 48 mixture of cyanohydrin acetonides 22 provided the 5yn-product 25 with 99 1 selectivity (Scheme 4). Ab initio calculations revealed a ca. 3.5 kcal/mol enthalpy difference between the axial and equatorial radical... 

Hydroxyl groups protected as acetonides or as silyl, tetrahydropyranyl, benzyl, or methoxymethyl ethers are stable to these conditions. Yields with KMn04 are higher than those obtained with KMn04 and dicyclohexyl- 18-crown-6, Bu4NMn04, or NaMn04H20. ... 

Diastereoselective alkylation of tartaric acid. The enolate (2) of the acetonide of dimethyl (R, R)-tartrate (1) can be generated with LDA in THF-HMPT at — 70° and is sufficiently stable for alkylation with allyl and benzyl halides, but not with other simple alkyl halides, and for addition to acetone (60% yield). The main products (3) of allylation and benzylation have the /ranr-configuration, and thus the substitution occurs with retention of configuration.7... 

Different protecting groups such as acetonides, /-butyl dimethyl silyl derivatives proved to be stable under these experimental conditions, but the benzylidene group is completely cleaved.. The rate of photodeoxygenation is greater at the secondary positions [82], as indicated in Scheme 43, with the regioselective photolysis of dipivaloate to give a mixture of monodeoxy and dideoxy derivatives (81) in low yields. 

Isopropylidene acetals (also known as acetonides) are used more frequently than any other protecting group for the protection of 1,2- and 1,3-diols. They are easily prepared and they are stable to most reaction conditions except pro-tic and Lewis acids. They typically survive strong metal hydride reactions, but the Lewis acidic nature of diisobutylalane and borane can cause complications as shown by the solvent-dependent reductive cleavage of a dioxolane in Scheme 3.L2... 

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