Esters amido

Figure 6 Side view of the computer-calculated dipeptide ester amido pyrazol 2 1 complex (adapted from Ref. 23).

It is significant that cyclopentene has been copolymerized with a large number of norbornene derivatives bearing functional groups X, where X is cyano-, ester-, amido-, amino-, or methyl-dichlorosilyl [46] ... 

In sulfamation, also termed A/-sulfonation, compounds of the general stmcture R2NSO2H are formed as well as their corresponding salts, acid hahdes, and esters. The reagents are sulfamic acid (amido—sulfuric acid), SO —pyridine complex, SO —tertiary amine complexes, ahphatic amine—SO. adducts, and chlorine isocyanate—SO complexes (3). 

Methyl Anthranilate.—This ester is one of extreme importance, and to it is largely due the possibility of manufacturing artificial neroli oils. It was discovered as a constituent of neroli oil in 1895 by Walbaum, and has since been identified in numerous other flower oils, such as tuberose, ylang-ylang, jasmin, and gardenia. Its value in synthetic perfumery is therefore obvious. Its constitution is that of a methyl ester or orthp-amido-benzoic acid, of the formula here shown —... 

There is obtained from 4-[)3-[5-methyl-isoxazolyl-(3)-carboxamido]-ethyl]-benzene-sulfonamide (prepared from 5-methyl-isoxazole-(3)-carboxylic acid chloride and 4-()3-aminoethyl)-benzene-sulfonamide hydrochloride, MP 213° to 214°C in pyridine) and chloroformic acid methyl ester, in a yield of 69%, the compound N-[ [-4-[)3-[5-methyl-isoxazolyl-(3)-carbox-amido] -ethyl] ] -benzene-sulfonyl] ] -methyl-urethane in the form of colorless crystals of MP 173°C. 

N-Benzoyl-Lalanine methyl ester is in turn about eight times more reactive than is its D enantiomer). The open-chain compounds may not bind to the enzyme in the same manner, however, as does the locked substrate. The conformation around the amido bond of the open-chain compounds, for example, can be transoid rather than cisoid (81). In addition, if equatorial 24 is considered to be the reactive conformer for both the Dand L enantiomers, and if the alanine methyl group is attracted to the hydrophobic aromatic binding subsite, then structures 34 and 38 would result. The L enantiomer of N-benzoyl-phenylalanine methyl ester 38 in this representation has approximately the same conformation as equatorial L-24. But attraction of the methyl of the D enantiomer to the location occupied by the methyl group of the L enantiomer causes the carbomethoxy group to move from the position it occupies in D-24. 

In addition to ester bonds with P (Section 10.2.1, Figures 10.1 and 10.2), some OPs have other ester bonds not involving P, which are readily broken by esteratic hydrolysis to bring about a loss of toxicity. Examples include the two carboxylester bonds of malathion, and the amido bond of dimethoate (Figure 10.2). The two carboxylester bonds of malathion can be cleaved by B-esterase attack, a conversion that provides the basis for the marked selectivity of this compound. Most insects lack an effective carboxylesterase, and for them malathion is highly toxic. Mammals and certain resistant insects, however, possess forms of carboxylesterase that rapidly hydrolyze these bonds, and are accordingly insensitive to malathion toxicity. 

In yet another example of an in situ reductive generation of an enolate, fi-amido esters are formed via the reaction of an o, /3-unsaturated ester with a silane in the presence of an isocyanate (Eq. 294).475 The yields obtained using methyl acrylate and methyl crotonate as substrates are generally excellent. 

The sense of diastereoselectivity in the dynamic kinetic resolution of 2-substi-tuted / -keto esters depends on the structure of the keto ester. The ruthenium catalyst with atropisomeric diphosphine ligands (binap, MeO-biphep, synphos, etc.) induced syn-products in high diastereomeric and enantiomeric selectivity in the dynamic kinetic resolution of / -keto esters with an a-amido or carbamate moiety (Table 21.21) [119-121, 123, 125-127]. In contrast to the above examples of a-amido-/ -keto esters, the TsOH or HC1 salt of /l-keto esters with an a-amino unit were hydrogenated with excellent cwti-selectivity using ruthenium-atropiso-... 

Aryl esters of retinoids have also received some interest. The 4-(acet-amido)phenyl ester of (all- )-retinoic acid, for example, showed topical activity in various animal models but was ineffective for the local treatment of acne in patients [86]. This difference is probably due to the prodrug being readily hydrolyzed in mice skin homogenates but not in human skin preparations. 

Imidates are a different type of imine. Conceptually, imidates result from dehydration after condensation of a primary amido N-atom with the carbonyl of an ester function, although the actual synthetic route is often via an ortho ester (RC(OR )3). A large variety of A-sulfonyl imidates have been prepared and examined for their value as potential prodrugs containing a sulfonamide or an ester moiety [101][102], The hydrolysis of such compounds,... 

The [lrCl(cod)]2-catalyzed reductive coupling of acrylates and imines provides trans-P-lactams with high diastereoselectivity (Equation 10.39) [67]. With regards to the reaction mechanism, in situ generated Ir-hydride reacts with acrylate 148 to produce an Ir enolate, which then reacts with the 147 to afford the P-amido ester 149. 

Preparation of a contrast medium using acceptable buffer system the pH of which decreases with increasing temperature Nanoparticulate diagnostic mixed carbamic anhydrides 3-Amido-triiodophenyl esters... 

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