Acyl syntheses with

The Pd-catalyzed coupling of an acyl chloride with benzyl chloride to form the benzyl ketone 854 proceeds in the presence of an excess of Zn. In this reaction, benzyl chloride reacts with Zn to form benzylzinc, which undergoes transmetallation with acylpaliadium complex[729]. The reaction has been applied to the synthesis of riccardin B (855)[730]. 

The customary method for the laboratory synthesis of acid anhydrides is the reac tion of acyl chlorides with carboxylic acids (Table 20 1)... 

Diethyl malonate has uses other than m the synthesis of carboxylic acids One particu larly valuable application lies m the preparation of barbituric acid by nucleophilic acyl substitution with urea... 

HONZL RUDINGER Peptide Synthesis Peptide synthesis by coupling ot acyl azides with amino esters... 

HOUBEN - HOESCH Phenol Acylation Synthesis ol ketones (or aldehydes) by acylation ol phenols with nitriles (or ortho formates)... 

Piridicillin (27) is made by ]T-acylating amoxycillin with a rather complex acid. The synthesis begins by reacting j, ]i-diethanol amine with. c ty i zene-sul fonyl chloride to give 23. Conversion (to 24) with ethyl formate and sodium... 

Other than energy considerations, on which there is little comparative data, the most important green role for photochemistry is in improving atom economy. Although only a preliminary research result, an excellent example of this is the avoidance of the need for stoichiometric amounts of Lewis acid catalysts in the synthesis of some acylated aromatic compounds. Benzoquinone can be reacted with an aldehyde under a sunlamp to yield an acylhydroquinone in up to 88% yield. The alternative procedure would involve reaction of an acyl chloride with hydroquinone and a... 

Effenberger and coworkers have utilized the tolerance of methyl ketones by the recombinant enzyme to develop an alternative synthesis of tetronic acids and their amino derivatives, as shown in Figure 5.18. Treatment of O-acyl cyanohydrins with lithium disilazide resulted in base-induced ring closure to amino tetronic acid derivatives. Alternatively, the cyanohydrins could be converted to a-hydroxy esters prior to acylation, and the same base-induced cyclization then led to tetronic acid derivatives [89]. 

The thiazolium-catalyzed addition of an aldehyde-derived acyl anion with a Michael acceptor (Stetter reaction) is a well-known synthetic tool leading to the synthesis of highly funtionalized products. Recent developments in this area include the direct nucleophilic addition of acyl anions to nitroalkenes using silyl-protected thiazolium carbinols <06JA4932>. In the presence of a fluoride anion, carbinol 186 is not cleaved to an aldehyde... 

Several new methods for the synthesis of the oxazole nucleus were published. A new consecutive three-component oxazole synthesis by an amidation-coupling-cycloisomerisation sequence was developed. The synthesis started from propargylamine 92 and acyl chlorides. To extend this process, a four component sequence involving a carbonylative arylation by substitution of one acyl chloride with an aryl iodide and a CO atmosphere was also performed <06CC4817>. 

In 1991 Bose described the synthesis of ot-vinyl /1-lactams by reaction of ,/l-unsa-turated acyl chlorides with a Schiff base in chlorobenzene under microwave irradiation (an example of the eco-friendly MORE chemistry, in which only a limited amount of solvent is used) [20b]. Under these conditions, a-vinyl /1-lactam formation can be achieved in 65-70% in approximately 5 min (classical conditions require several hours and lead only to modest yields). 

Although the synthesis of 3-isoxazolols from P-keto esters and hydroxylamine suffers from the formation of 5-isoxazolones as major products, treatment of acyl chlorides with Meldrum s acid 4 followed by aminolysis gave rise to p-keto hydroxamic acids 6 that cyclised to the corresponding 5-substituted 3-isoxazolols 7 without formation of any byproduct <00JOC1003>. Cyclisation of N-substituted salicylhydroxamic acids 9 under... 

The copper complex of these bis(oxazoline) compounds can also be used for hetero Diels-Alder reactions of acyl phosphonates with enol ethers.43 5 A favorable acyl phosphonate-catalyst association is achieved via complexation between the vicinal C=0 and P=0 functional groups. The acyl phosphonates are activated, leading to facile cycloaddition with electron-rich alkenes such as enol ethers. The product cyclic enol phosphonates can be used as building blocks in the asymmetric synthesis of complicated molecules. Scheme 5-36 shows the results of such reactions. 

Bis-acyl sulphides are obtained in only low yield by the standard reaction of sodium sulphide with an acyl chloride, but the addition of Adogen results in their viable synthesis with yields >70%. Examples using quaternary phosphonium salts provide the optimum yields (> 90%) [63]. Similarly, thiophenols have been benzoylated using benzoyl chloride under basic conditions in the presence of ammonium salts [12]. 

The acylated peptides (Myr)GCX-Bimane 31 a-e (X = G, L, R, T, V), which are found in certain nonreceptor tyrosine kinases and ct-subunits of several heterotrimeric G-proteins, were synthesized in solution using common solution-phase peptide synthesis with X-myristoylglycine as a building block. These model peptides were used for acylation studies with palmitoyl-CoA in phospholipid vesicles at physiological pH. For such uncatalyzed spontaneous reactions only a modest molar excess of acyl donor species (2.5 1) was necessary. Unprotected side chains of threonine or serine are not interfering with this S-acylation (Scheme 14). 

As discussed above, proteases are peptide bond hydrolases and act as catalysts in this reaction. Consequently, as catalysts they also have the potential to catalyze the reverse reaction, the formation of a peptide bond. Peptide synthesis with proteases can occur via one of two routes either in an equilibrium controlled or a kinetically controlled manner 60). In the kinetically controlled process, the enzyme acts as a transferase. The protease catalyzes the transfer of an acyl group to a nucleophile. This requires an activated substrate preferably in the form of an ester and a protected P carboxyl group. This process occurs through an acyl covalent intermediate. Hence, for kineticmly controlled reactions the eii me must go through an acyl intermediate in its mechanism and thus only serine and cysteine proteases are of use. In equilibrium controlled synthesis, the enzyme serves omy to expedite the rate at which the equilibrium is reached, however, the position of the equilibrium is unaffected by the protease. 

In view of the potential therapeutic applications of At vide infra) the synthesis of stable astatinated protein molecules has attracted much effort (see Table VII). Proteins labeled with At can be prepared most reliably and unambiguously via incorporation of previously prepared pora-AtC6H4COOH by an acylation reaction with protein amino groups 53, 156, 158, 159, 178). Labeling proteins by this method was first reported by Hughes et al. 69, 71). 

The consecutive formation of o-hydroxybenzophenone (Figure 3) occurred by Fries transposition over phenylbenzoate. In the Fries reaction catalyzed by Lewis-type systems, aimed at the synthesis of hydroxyarylketones starting from aryl esters, the mechanism can be either (i) intermolecular, in which the benzoyl cation acylates phenylbenzoate with formation of benzoylphenylbenzoate, while the Ph-O-AfCL complex generates phenol (in this case, hydroxybenzophenone is a consecutive product of phenylbenzoate transformation), or (ii) intramolecular, in which phenylbenzoate directly transforms into hydroxybenzophenone, or (iii) again intermolecular, in which however the benzoyl cation acylates the Ph-O-AfCL complex, with formation of another complex which then decomposes to yield hydroxybenzophenone (mechanism of monomolecular deacylation-acylation). Mechanisms (i) and (iii) lead preferentially to the formation of p-hydroxybenzophenone (especially at low temperature), while mechanism (ii) to the ortho isomer. In the case of the Bronsted-type catalysis with zeolites, shape-selectivity effects may favor the formation of the para isomer with respect to the ortho one (11,12). 

The alkynyl ketones 840 can be prepared by the reaction of acyl chlorides with terminal alkynes. Cul in the presence of Et3N is the cocatalyst[719]. (1-Alkynyl)tributylstannanes are also used for the alkynyl ketone synthesis[720]. The a, 9-alkynic dithio and thiono esters 842 can be prepared by the reaction of the corresponding acid chloride 841 with terminal alkynes[721,722],... 

Pyrroles and furans also undergo the Gattermann aldehyde synthesis with HC1 and HCN, furan gives furfuraldehyde and 2-methylindole gives 2-methylindole-3-carboxaldehyde. The Houben-Hoesch ketone synthesis is also applicable to the preparation of acyl derivatives of furans and pyrroles, e.g. ethyl 2,4-dimethylpyrrole-3-carboxylate with MeCN and HC1 yields (81). 

The synthesis of a pyrrole segment common to netropsin and distamycin is shown in Scheme 2ji°l Friedel-Crafts acylation of 1-methylpyrrole (1) followed by nitration at C4 provides 3 in 54% yield. After a haloform reaction, hydrogenolysis, N-protection with B0C2O, and saponification, the pyrrolecarboxylic derivative acid 7 was obtained in 30% overall yield from 3. This monomer is readily chain-extended to the pyrrole-imidazole derivative 9 (Scheme 3)J10 Furthermore, solid-phase synthesis with this and related pyrrole-containing building blocks leads to polyamides that have recently been used in the recognition of a 16 base-pair sequence in the minor groove of DNA.1" ... 

Strategies that lead to the formation of isoxazoles during cleavage from an insoluble support include the oxidative cleavage of /V-(4-alkoxybenzyl)isoxazolidincs with DDQ to yield isoxazolines (Entry 14, Table 15.16), the nucleophilic cleavage of 2-acyl enamines with hydroxylamine (Entry 15, Table 15.16), and the acidolysis of 2-cyano-phenols etherified with an oxime resin (Entry 17, Table 15.16). The required oxime ethers for the latter synthesis were prepared by reaction of the corresponding 2-fluorobenzonitriles with Kaiser oxime resin [203],... 

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