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Problems Protective Groups

However, certain difficulties may arise from the substrates that are often bi- or even oligofunctional in their structures thus causing problems with respect to the control of the reactive sites. In order to eliminate these problems, protective group techniques are used, in particular, when hydroxyl or amino functions are involved. For that purpose, the interfering functions are temporarily... [Pg.1109]

APA may be either obtained directly from special Penicillium strains or by hydrolysis of penicillin Q with the aid of amidase enzymes. A major problem in the synthesis of different amides from 6-APA is the acid- and base-sensitivity of its -lactam ring which is usually very unstable outside of the pH range from 3 to 6. One synthesis of ampidllin applies the condensation of 6-APA with a mixed anhydride of N-protected phenylglydne. Catalytic hydrogenation removes the N-protecting group. Yields are low (2 30%) (without scheme). [Pg.311]

As chemists proceeded to synthesize more complicated stmctures, they developed more satisfactory protective groups and more effective methods for the formation and cleavage of protected compounds. At first a tetrahydropyranyl acetal was prepared, by an acid-catalyzed reaction with dihydropyran, to protect a hydroxyl group. The acetal is readily cleaved by mild acid hydrolysis, but formation of this acetal introduces a new stereogenic center. Formation of the 4-methoxytetrahy-dropyranyl ketal eliminates this problem. [Pg.2]

These were originally prepared by Khorana as selective protective groups for the 5 -OH of nucleosides and nucleotides. They were designed to be more acid-labile than the trityl group because depurination is often a problem in the acid-catalyzed removal of the trityl group. Introduction of p-methoxy groups increases the rate of hydrolysis by about one order of magnitude for each p-methoxy substituent. For 5 -protected uridine derivatives in 80% AcOH, 20°, the time for hydrolysis was... [Pg.62]

CF3SO3H, PhSMe, 0-25°. ° In this case O-methyltyrosine was depro-tected without evidence for O C migration, which is often a problem when removing protective groups from tyrosine. [Pg.148]

The disadvantage of this method is that the dichloridites and monochloridites are sensitive to water and thus could not be used readily in automated oligonucleotide synthesis. This problem was overcome by Beaucage and Caruthers, who developed the phosphoramidite approach. In this method, derivatives of the form R 0P(NR2)2 react with one equivalent of an alcohol (catalyzed by species such as l//-tetrazole) to form diesters, R OP(OR")NR2, which usually are stable, easily handled solids. These phosphoroamidites are easily converted to phosphite triesters by reaction with a second alcohol (catalyzed by l//-tetrazole). Here, again, oxidation of the phosphite triester with aqueous iodine affords the phosphate triester. Over the years, numerous protective groups and amines have been examined for use in this approach. Much of the work has been reviewed. ... [Pg.665]

The choice of the acyl substituent X for Diels-Alder reactions of l-N-acylamino-l,3-butadicnes depends on the particular synthetic problem. The acyl substituent has a moderate effect on the cycloaddition reactivity of these dienes, and also determines what amine unmasking procedures are required. As a result of their stability and the variety of amine deprotection procedures available, " the diene carbamates are the components of choice in most cases. A particularly attractive aspect of the diene synthesis detailed here is the ability to tailor the amino-protecting group... [Pg.141]

The failure to completely remove the A -protecting group and incomplete coupling reactions are among the most frequent problems observed in SPPS and result in... [Pg.34]

At the beginning of the project, we had studied the introduction of the pMB group to 4 as a nitrogen protecting group, as used in the Medicinal Chemistry route. There was a classical regioselectivity problem, O- versus N-alkylation. Under the Medicinal Chemistry conditions, the desired N-alkylated product 5 was mainly formed, but around 10-12% of the corresponding O-alkylated product 16 was also... [Pg.4]

In the synthesis of the antibiotic L-azatyrosine, the simultaneous removal of the carbobenzyloxy and diphenylethylene protecting groups presented a problem (Scheme 4.47). [Pg.148]

Fig. 4.2 Problematic functional groups (inset) and protecting group strategy to alleviate problems caused by the harsh cycloaddition conditions... Fig. 4.2 Problematic functional groups (inset) and protecting group strategy to alleviate problems caused by the harsh cycloaddition conditions...
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