4-acyl-5-amino

Die Umwandlung von (2-Oxo-alkyl)-l, 2,4-triazolium-Salzen mit Natriumhydrid in Dimethyl-formamid fiihrt zu 4-Acyl-5-amino-imidazolen. Diese Reaktion verlauft iiber offenkettige N-Cyan-formamidine, was in einem Beispiel durch Isolierung des N-Cyan-formamidins und dessen thermische Cyclisierung zum 4-Acyl-5-amino-imidazol nachgewiesen wurde. Die Ausbeuten liegen im allgemeinen um 30%. In einem Fall wurden 60% Ausbeute erzielt [5-Amino-l-(4-chlor-benzyl)-4-(2,4-dichlor-benzoyl)-imidazol Schmp. 220°]373 ... 

Substituted 5-hydroxythiazoles (267b), Rj = alkylmercapto, acyl-amino, and sec-amino, are prepared by cydization of N-thioacyl-amino acids (266) with phosphorus tribromide or acetic anhydride (Scheme 137) (317, 350). i en the cydization of 266, R2 = H, is carried out with acetic anhydride in the presence of benzaldehyde (317, 325) or ethylformate (317), the benzylidene (268), R2=Ph, Rj = SR or CH2Ph, or 4-ethoxymethylene (268), Rj = SR and R2 = OEt, derivative is obtained directly (Scheme 138). 

In the synthesis of ceftazidime (40) (Fig. 8), the protected, preassembled arninothiazole side chain [68672-66-2] (60) is coupled to a protected 7-ACA first and the C-3 displacement step carried out last. By way of contrast, in the synthesis of ceftriaxone (39) (Fig. 9), the preformed C-3 substituent is introduced onto the cephalosporin nucleus in the first step and then the acyl-amino side chain is introduced. This last step is noteworthy for two reasons in that it demonstrates the use of an activated thio ester in the coupling step and that no protecting group chemistry is requited (192,193). 

Resolution of Racemic Amines and Amino Acids. Acylases (EC3.5.1.14) are the most commonly used enzymes for the resolution of amino acids. Porcine kidney acylase (PKA) and the fungaly3.spet i//us acylase (AA) are commercially available, inexpensive, and stable. They have broad substrate specificity and hydrolyze a wide spectmm of natural and unnatural A/-acyl amino acids, with exceptionally high enantioselectivity in almost all cases. Moreover, theU enantioselectivity is exceptionally good with most substrates. A general paper on this subject has been pubUshed (106) in which the resolution of over 50 A/-acyl amino acids and analogues is described. Also reported are the stabiUties of the enzymes and the effect of different acyl groups on the rate and selectivity of enzymatic hydrolysis. Some of the substrates that are easily resolved on 10—100 g scale are presented in Figure 4 (106). Lipases are also used for the resolution of A/-acylated amino acids but the rates and optical purities are usually low (107). 

Fig. 4. Examples of enzymatically resolved A/-acyl amino acids.

A substituted acyl amino group can be introduced by reaction of pyridazine 1-oxide with A-phenylbenzonitrilium hexachloroantimonate 3-A-benzoylanilinopyridazine is formed (75JOC41). 

Reaction of 2-alkyl- -pyrrolines and 2-alkyl- -piperideines with acid chlorides leads to ring-opening and formation of N-acylated amino ketones (131, = 1, 2) (211-213). Ketene reacts with J -piperideine to form a tricyclic derivative (132) (214). 

Thiazolotriazines 678 were synthesized (87AJC693) by heating 5-acyl-amino[l,2,4]triazin-6(lH)-ones or its thio analogue 677 with phosphorus... 

The main application of the enzymatic hydrolysis of the amide bond is the en-antioselective synthesis of amino acids [4,97]. Acylases (EC 3.5.1.n) catalyze the hydrolysis of the N-acyl groups of a broad range of amino acid derivatives. They accept several acyl groups (acetyl, chloroacetyl, formyl, and carbamoyl) but they require a free a-carboxyl group. In general, acylases are selective for i-amino acids, but d-selective acylase have been reported. The kinetic resolution of amino acids by acylase-catalyzed hydrolysis is a well-established process [4]. The in situ racemization of the substrate in the presence of a racemase converts the process into a DKR. Alternatively, the remaining enantiomer of the N-acyl amino acid can be isolated and racemized via the formation of an oxazolone, as shown in Figure 6.34. 

Figure 6.34 Resolution of N-acyl amino acids by acylases.

Amides can add to aldehydes in the presence of bases (so the nucleophile is actually RCONH ) or acids to give acylated amino alcohols, which often react further to give alkylidene or arylidene bisamides. If the R group contains an a hydrogen, water may split out. 

The intramolecular cycloaddition of munchnone intermediates (derived from the cyclodehydration of A-acyl amino acids) with 1,3-dipolarophiles was employed to construct the mitomycin skeleton. Thus, heating alkynyl acids 23 with acetic anhydride forms the intermediates 24 which undergo cyclization with loss of carbon dioxide to afford the 4-oxo-tetrahydroindoles 25 <96TL2887>... 

A synthesis of aspartic acid is based on this strategy. Disconnection (a) is attractive since acyl-amino malonate (7) is a reagent for synthon (6). Synthon (8) can be represented by allyl bromide. 

Another -activation of amino acids for peptide synthesis is achieved by preparing sulfenamides from sulfenylimidazoles. A sulfenylimidazole is formed in situ from the sulfenyl chloride (prepared from the disulfide and chlorine) and imidazole, which reacts further with an amino acid ester to give a sulfenamide in high yield. Conversion of such sulfenamides with IV-acyl amino acids by means of triphenylphosphine affords dipeptides with racemization of less than 0.5%.[481... 

Tetraacetyl-/ -D-glucosamine with Acyl Amino Acid Azides. J. Amer. chem. Soc. 75, 3469 (1953). 

Several hundred tons of L-methionine per year are produced by enzymatic conversion in an enzyme membrane reactor. An alternative approach is dynamic resolution, where the unconverted enantiomer is racemized in situ. Starting from racemic /V-acetyl-amino acid, the enantioselective L-acylase is used in combination with an TV-acyl-amino acid racemase to enable nearly total conversion of the substrate. 

T Wieland, H Bernhard. On the synthesis of peptides. Part 3. The use of anhydrides of N-acylated amino acids and derivatives of inorganic acids. Ann Chem 572, 190, 1951. 

FIGURE 6.10 The side chain of histidine is readily acylated (A) by activated residues. The imidazolide produced is an activated species similar to the intermediate generated by reaction (B) of a carboxylic acid with coupling reagent carbonyldiimidazole. (Staab, 1956). Imida-zolides acylate amino and hydroxyl groups. Isomerization of histidyl during activation results from abstraction (C) of the a-proton by the 7t-nitrogen. 

Interesting cyano, polyoxyethylene, and O-acetyl functionalized N-acyl-amino acid derivatives can be obtained from functionalized olefins (Table 1). Diamidocarbonylation products may also be synthesized in moderate yields from terminal diolefins [13-15]. 

The advantage of trimethylsilyl (TMS) derivatives lies in the simplicity of the derivatization procedure, which is carried out by the addition of N,0-bis(trimethylsilyl)trifluoroacetamide (BSTFA) in acetonitrile and heating for approximately 2 h at 150 °C under anhydrous conditions in a sealed tube. However, there may be problems owing to the formation of multiple derivatives of each amino acid. Another technique involves the formation of n-butyl esters of the amino acids and their subsequent trimethylsilylation by a similar procedure. The n-butyl esters are formed by heating the amino acids for 15 min in n-butanol and HC1 and these are then converted to the A-TMS-n-butyl ester derivatives. A-acyl amino acid alkyl esters are commonly used. Acetylation of the butyl, methyl or propyl esters of amino acids,... 

N-Acylated amino acids (sodium lauiyl sarcosinatc)... 

Fig. 8.26. The two-step activation of oxazolidin-5-one derivatives of peptides and N-acy/ amino acids (8.190). Hydrolysis (Reaction a) yields an A-(l-hydroxyalkyl) derivative that breaks down to liberate the peptide or A-acyl amino acid (Reaction b) [247] [248],...

Hsu et have cloned two enzymes from Deimcoccus radiodurans for overexpression in E. coli in order to carry out a dynamic kinetic resolution to obtain L-homophenylalanine, frequently required for pharmaceutical synthesis. The starting material is the racemic mixture of A acetylated homophenylalanine, and the two enzymes are an amino acid A -acylase, which specifically removes the acetyl group from the L-enantiomer, and a racemase, which interconverts the D- and L-forms of the A acyl amino acids. The resolution was carried out successfully using whole-cell biocatalysts, with the two enzymes either expressed in separate E. coli strains or coexpressed in the same cells. 

A/-Carbamoylase Combined with Af-Acyl Amino Acid Racemase to Produce L-Homophenylalanine... 

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