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Acyl substituent

Carbanions stabilized by phosphorus and acyl substituents have also been frequently used in sophisticated cyclization reactions under mild reaction conditions. Perhaps the most spectacular case is the formation of an ylide from the >S-lactam given below using polymeric Hflnig base (diisopropylaminomethylated polystyrene) for removal of protons. The phosphorus ylide in hot toluene then underwent an intramolecular Wlttig reaction with an acetyl-thio group to yield the extremely acid-sensitive penicillin analogue (a penem I. Ernest, 1979). [Pg.32]

In the case of the aspidosperma structure, the 5-mcmbcrcd C-ring is constructed from the A -acyl substituent. For the kopsine skeleton, an allyl group is installed and used to form the C6-C20 bridge. [Pg.168]

Acylation. Acylation is the most rehable means of introducing a 3-substituent on the indole ring. Because 3-acyl substituents can be easily reduced to 3-aLkyl groups, a two-step acylation—reduction sequence is often an attractive alternative to direct 3-aLkylation. Several kinds of conditions have been employed for acylation. Very reactive acyl haUdes, such as oxalyl chloride, can effect substitution directiy without any catalyst. Normal acid chlorides are usually allowed to react with the magnesium (15) or 2inc (16) salts. The Vilsmeier-Haack conditions involving an amide and phosphoms oxychloride, in which a chloroiminium ion is the active electrophile, frequentiy give excellent yields of 3-acylindoles. [Pg.85]

There have been a number of refinements to the procedure, both in the enamine formation and in the reduction. Furthermore, the procedure can be adapted to 2-substituted indoles by introducing an acyl substituent on the enamine intermediate. [Pg.86]

The rapid rearrangement of vinyl and acyl substituents can be explained as proceeding... [Pg.721]

All the erythrophleum alkaloids examined in detail so far are of the same type, viz., acyl esters of either monomethylaminoethanol, e.g., erythrophleine and coumingidine or dimethylaminoethanol, such as cassaine or cassaidine. The acyl substituents are complex, yield 1 7 8-trimethylphenanthrene on selenium dehydrogenation, and contain at least one hydroxyl group, which may be acylated by an aliphatic acid, e.g., coumingine forms three components on hydrolysis. [Pg.726]

Carboxyl-related and acyl substituents. Included here are cyano, protonated amidinium ion, thionoacyl, acyl (Ar—CO, H—CO, Alkyl—CO), carboxamido, carboaryloxy, carboalkoxy, carboxy (unionized), amidino (unionized), and carboxylate anion, listed approximately in order of decreasing electron attraction or activation. The relative activation by some of these groups (e.g., ketone, aldehyde, nitrile) will change upon reversible interaction with the nucleophile, which will vary with the group and with the nucleophile (e.g., MeO , N3, NCS ). Irreversible interaction will be obvious when the reaction products in kinetic studies are characterized. [Pg.228]

Notice in both of the previous reactions that only "half" of the anhydride molecule is used the other half acts as the leaving group during the nucleophilic acyl substitution step and produces acetate ion as a by-product. Thus, anhydrides are inefficient to use, and acid chlorides are normally preferred for introducing acyl substituents other than acetyl groups. [Pg.807]

In accord with the Felkin-Anh model, a-chiral ketones react more diastereoselectively than the corresponding aldehydes. Increasing steric demand of the acyl substituent increases the Cram selectivity. Due to the size of the acyl substituent, the incoming nucleophile is pushed towards the stereogenic center and therefore the diastereoface selection becomes more effective (see also Section 1.3.1.1.). Thus, addition of methyllithium to 4-methyl-4-phenyl-3-hexanonc (15) proceeds with higher diastercoselectivity than the addition of ethyllithium to 3-methyl-3-phenyl-2-pen-tanone (14)32. [Pg.31]

The methyltitanium reagents 37 modified by the chiral 2-pyrrolidinemethanols 36 also did not show satisfactory enantioselectivities in addition reactions to aromatic aldehydes35. Noteworthy, however, is the fact that the enantioselectivity substantially increases with the change from A-methyl to A-acyl substituents. [Pg.160]

Note. Acyl substituents on anomeric OH are designated (as above) by 0-acyl prefixes. However, anomeric 0-alkyl derivatives are named as glycosides (see 2-Carb-33). [Pg.113]

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]

Gas phase reactivity toward allyltrimethylsilane was used to compare the reactivity of several cyclic A-acyliminium ions and related iminium ions.203 Compounds with endocyclic acyl groups were found to be more reactive than compounds with exocyclic acyl substituents. Five-membered ring compounds are somewhat more reactive than six-membered ones. The higher reactivity of the endocyclic acyl derivatives is believed to be due to geometric constraints that maximize the polar effect of the carbonyl group. [Pg.145]

The general ordering of aminomethyl > hydroxymethyl > CH=0 > ester suggests that Lewis basicity is the dominant factor in the directive effect. Problem 5.2 involves considering the ordering of the various acyl substituents in more detail. [Pg.373]

Carbenes from Diazo Compounds. Decomposition of diazo compounds to form carbenes is a quite general reaction that is applicable to diazomethane and other diazoalkanes, diazoalkenes, and diazo compounds with aryl and acyl substituents. The main restrictions on this method are the limitations on synthesis and limited stability of the diazo compounds. The smaller diazoalkanes are toxic and potentially explosive, and they are usually prepared immediately before use. The most general synthetic routes involve base-catalyzed decomposition of V-nitroso derivatives of amides, ureas, or sulfonamides, as illustrated by several reactions used for the preparation of diazomethane. [Pg.909]

Carbon monoxide, hydrogen cyanide, and nitriles also react with aromatic compounds in the presence of strong acids or Friedel-Crafts catalysts to introduce formyl or acyl substituents. The active electrophiles are believed to be dications resulting from diprotonation of CO, HCN, or the nitrile.64 The general outlines of the mechanisms of these reactions are given below. [Pg.1023]

Phenazine leucos are generally more reactive and more susceptible to air oxidation than the thiazines and oxazines. Incorporation of electron-withdrawing groups on the acyl substituent at the 10-position of the leuco dye can provide a substantial improvement in the thermal and light stability of the leuco form and it is found that in general the stronger the electron-withdrawing character of the acyl substituents the more stable the leuco is.18... [Pg.83]

This procedure illustrates a fundamentally new method for constructing substituted tetrahydrofurans.5-10 This practical method assembles the tetrahydrofuran ring from allylic diol and carbonyl components and in the process forms three ring bonds C(2)-C(3), C(4)-C(5) and 0-C(5). Both aldehydes (eq 1) and ketones (illustrated in the present procedure) can be employed as the carbonyl component. Although it is often convenient to isolate the acetal intermediate, conversion to the 3-acyltstrahydrofuran can also be accomplished in many cases by the direct reaction of the diol and carbonyl components.8 High ds stereoselectivity (at least 20 1) is observed in the preparation of tetrahydrofurans that contain single side chains at carbons 2 and 5 (eq 1). The kinetically controlled product also has the cis relationship of these side chains and the 3-acyl substituent. [Pg.35]

The important role of reaction enthalpy in the free radical abstraction reactions is well known and was discussed in Chapters 6 and 7. The BDE of the O—H bonds of alkyl hydroperoxides depends slightly on the structure of the alkyl radical D0 H = 365.5 kJ mol 1 for all primary and secondary hydroperoxides and P0—h = 358.6 kJ mol 1 for tertiary hydroperoxides (see Chapter 2). Therefore, the enthalpy of the reaction RjOO + RjH depends on the BDE of the attacked C—H bond of the hydrocarbon. But a different situation is encountered during oxidation and co-oxidation of aldehydes. As proved earlier, the BDE of peracids formed from acylperoxyl radicals is much higher than the BDE of the O—H bond of alkyl hydroperoxides and depends on the structure of the acyl substituent. Therefore, the BDEs of both the attacked C—H and O—H of the formed peracid are important factors that influence the chain propagation reaction. This is demonstrated in Table 8.9 where the calculated values of the enthalpy of the reaction RjCV + RjH for different RjHs including aldehydes and different peroxyl radicals are presented. One can see that the value A//( R02 + RH) is much lower in the reactions of the same compound with acylperoxyl radicals. [Pg.333]

Nature and linkage type of acyl substituents of the lipid A backbone bound to ... [Pg.228]

Hydroxylaminolysis, treatment with stronger alkali (0.5 m NaOH, 2 h, 100°C) and alkaline methanolysis (0.25 m NaOMe, 1 h, 50°C) lead to complete O-deacylation of LPS and lipid A (176). Particularly in the case of alkaline methanolysis, ester-linked 3-acyloxyacyl residues undergo, in addition to transmethylation, a -elimination reaction, whereby the (R)-3-hy-droxy fatty acid ester is first transformed into the a,/ -unsaturated and then into the (S.-R -methoxy fatty acid methyl ester. The acyl substituent, on the other hand, is eliminated in the form of the free fatty acid (176). In fact, the presence of a 3-methoxyacyl derivative in the fatty acid spectrum of a given LPS is a strong indication for the presence of an ester-bound 3-acyloxyacyl... [Pg.236]

Hybrid triglycerides (RCOOCH2-CH(OCOR )-CH2OCOR"), i.e., containing zero, one, or two natural fatty acyl substituents, and three, two, or one active carboxylate moieties ... [Pg.455]

Hybrid pseudolipid analogues such as l,3-bis(acylamino)prop-2-yl esters (RCONHCH2-CH(OCOR )-CH2NHCOR), where R is a fatty acyl substituent and OCOR is the active carboxylate moiety. [Pg.455]

The kinetics of the aminolysis reactions of the a-effect nucleophiles hydrazine and hydroxyiamine with Y-phenyl X-benzoates (8) have been reported." The results demonstrated that the magnitude of the a-effect decreases with increasing electron-withdrawing ability of the acyl substituents. The authors propose that hydrazine stabilizes the transition state (9) by intramolecular H-bonding. ... [Pg.37]


See other pages where Acyl substituent is mentioned: [Pg.62]    [Pg.89]    [Pg.82]    [Pg.102]    [Pg.16]    [Pg.106]    [Pg.340]    [Pg.248]    [Pg.281]    [Pg.4]    [Pg.141]    [Pg.633]    [Pg.186]    [Pg.83]    [Pg.162]    [Pg.164]    [Pg.40]    [Pg.102]    [Pg.229]    [Pg.24]    [Pg.45]    [Pg.7]    [Pg.796]    [Pg.829]    [Pg.7]    [Pg.39]    [Pg.534]   
See also in sourсe #XX -- [ Pg.244 , Pg.366 ]




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Acyl with electron donating substituents

Acyl, terminal substituents

Substituents nucleophilic acyl

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