Transamination esters

The anaerobic metabolism of L-phenylalanine by Thauera aromatica under denitrifying conditions involves several steps that result in the formation of benzoyl-CoA (a) conversion to the CoA-ester by a ligase, (b) transamination to phenylacetyl-CoA, (c) a-oxidation to phenylglyoxalate, and (d) decarboxylation to benzoyl-CoA (Schneider et al. 1997). 

Additionally, the authors chose 3-chloropropionyl chloride as the immobilized building block in order to carry out a ring-expansion approach, which led to the generation of a 14-member library of thioxotetrahydropyrimidinones [85, 86], The initially prepared polymer-bound chloropropionyl ester was efficiently transformed into the corresponding diamines by transamination utilizing several primary amines. These diamine intermediates could also be obtained by treatment of the pure polymeric support with acryloyl chloride and subsequent addition of the appropriate amines (Scheme 7.74). 

Transamination of barbiturate derivatives with semicarbazide Hydrolysis and acyl migration of corticosteroid esters Rate enhancement by CTABr depends on substrate structure Substrate micellization inhibits hydrolysis and acyl migration Reddy and Katiyar, 1981 Anderson el ai, 1983... 

The intervention of a metal ion in the stoichiometry of a reaction has been illustrated several times previously. Reaction is forced to completion in ester hydrolysis since the carboxylate grouping forms a more stable complex than the ester moiety does. A similar driving force underlies the formation of macrocycles and the completion of transamination by formation of the metal-Schiff base complex. The latter is particularly relevant in dilute solution and at low pH. For example, the extent of aldimine formation between pyridoxal and alanine is undetectable at the physiological pH but occurs to the extent of = 10% in the presence of zinc... 

The asymmetric transamination from chiral a-amino acids 1021 and amino acid derivatives (57) (esters 86,103), amino alcohols 104 ) to carbonyl functions in prochiral substrates (58) (a-keto acids 102), a-keto esters 86,103), ketones 103b d) was described... 

The phosphate ester of the aldehyde form of vitamin B6, pyridoxal phosphate (pyridoxal-P or PLP), is required by many enzymes catalyzing reactions of amino acids and amines. The reactions are numerous, and pyridoxal phosphate is surely one of nature s most versatile catalysts. The story begins with biochemical transamination, a process of central importance in nitrogen metabolism. In 1937, Alexander Braunstein and Maria Kritzmann, in Moscow, described the transamination reaction by which amino groups can be transferred from one carbon skeleton to another.139 140 For example, the amino group of glutamate can be transferred to the carbon skeleton of oxaloacetate to form aspartate and 2-oxoglutarate (Eq. 14-24). 

Soloshonok and co-workers have developed a method for the synthesis of a-(perfluoro-alkyl)amines from perfluoroalkyl carbonyl compounds by a transamination involving an azomethine a/omethine (Schiffbase) isomerization. They call this method a biomimetic, base-catalyzed 1,3-proton shift reaction, and have applied it to perfluoroaldehydes,12-15 perfluoroalkyl ketones,12 18 / -(perfluoroalkyl)-/l-oxo esters,15 16 19 24 and - -( perfluoroalkyl)-a-oxo es-ters2 " -26 to synthesize the corresponding a-(perfluoroalkyl)amincs, / -(perfluoroalkyl )-/i-amino acids, and 3 -(perfluoroalkyl)- x-amino acids. 

The bis(tetramethylphosphoric diamide) ester (57) of isosorbide has been obtained by reaction of 3 with hexamethylphosphric triamide. Transamination with ethyleneimine leads135 to the tetrakis(aziridide) 58 (see Scheme 9). 

In cases of promiscuous activity, one species in the pathway often acts as a common intermediate for both mechanisms leading to different activities. An enam-ine between PLP and the substrate branches off into a decarboxylation or a transamination, a TPP-bound intermediate can react either to decarboxylation or to carboligation, and the triad Ser-His-Asp in hydroxynitrile lyase is responsible for both the main function, oxynitrilation, and the subordinate function, ester hydrolysis. It can be assumed that many more promiscuous functionalities will be discovered in the coming years. 

Transesterification or transamination are metal-directed reactions which are commonly encountered. We have discussed transamination processes in Section 5.5.2 and also in Chapter 3. The key step involves the attack of a co-ordinated alcohol or alkoxy group upon the carbonyl of a co-ordinated ester or amide. Many Lewis acidic metal ions have been shown to be effective catalysts for transesterification reactions for example, heating diethyl picolinate with copper(n) salts in methanol results in rapid and clean transesterification (Fig. 5-86). In the absence of the metal ion, the rate of reaction is vanishingly slow. 

The results on the asymmetric transamination of a-oxo acids or ester by Hiskey and Northrop and by Harada and Matsumoto are summarized in Table 6.6,53 56,57 It is seen that the configuration of the a-amino acid produced is the same as that of the optically... 

PREPARATION. Pyrazinecarbohydrazides have been made by primary synthesis (see Chapters 1 and 2), from pyrazinecarboxylic esters (see Section 8.2.2), from pyrazinecarbonyl halides (see Section 8.2.3), and by transamination of pyrazinecarboxamides (see Section 8.4.2). 

Studies on the transamination reaction between f-butyl esters of optically active amino acids and methyl pyruvate were carried out, as shown in Scheme 7. The resulting iminodicarboxylic acid (16) was partially hydrolyzed and then oxidized with f-butyl hypochlorite to form alanine. The oxidation is a generally applicable one, and the optical purity of alanine is high (50-70%). Similar asymmetric transamination between an (S)-amino acid and ketones was carried out. Catalytic hydrogenation of the Schiff s bases prepared from a-keto acid esters and amino acid esters was carried out, and a substituent and temperature effect observed (de 40-70%). ... 

Soloshonok, V. A. and Kuklar, V. P. (1997) Biomimetic transamination of a-keto perfluoro-carboxylic esters. An efficient preparative synthesis of P,p,P-trifluoroalanine. Tetrahedron, 53, 8307-8314. 

L-Phenylalanine,which is derived via the shikimic acid pathway,is an important precursor for aromatic aroma components. This amino acid can be transformed into phe-nylpyruvate by transamination and by subsequent decarboxylation to 2-phenylacetyl-CoA in an analogous reaction as discussed for leucine and valine. 2-Phenylacetyl-CoA is converted into esters of a variety of alcohols or reduced to 2-phenylethanol and transformed into 2-phenyl-ethyl esters. The end products of phenylalanine catabolism are fumaric acid and acetoacetate which are further metabolized by the TCA-cycle. Phenylalanine ammonia lyase converts the amino acid into cinnamic acid, the key intermediate of phenylpropanoid metabolism. By a series of enzymes (cinnamate-4-hydroxylase, p-coumarate 3-hydroxylase, catechol O-methyltransferase and ferulate 5-hydroxylase) cinnamic acid is transformed into p-couma-ric-, caffeic-, ferulic-, 5-hydroxyferulic- and sinapic acids,which act as precursors for flavor components and are important intermediates in the biosynthesis of fla-vonoides, lignins, etc. Reduction of cinnamic acids to aldehydes and alcohols by cinnamoyl-CoA NADPH-oxido-reductase and cinnamoyl-alcohol-dehydrogenase form important flavor compounds such as cinnamic aldehyde, cin-namyl alcohol and esters. Further reduction of cinnamyl alcohols lead to propenyl- and allylphenols such as... 

Acridinium-NHS (AT-hydroxysuccinimide) ester labeling reagent is synthesized as described by Weeks et al. (1983) and probes containing an allylamine linker arm (Fig. 7.2.1) are prepared either as described for nucleotides and for enzymatically labeled probes (Section 7.6.2.2), by transamination (Section 7.8.1) or during oligomer synthesis (Section 6.4). The acridinium-NHS ester is then reacted with the linker arm by standard methods (Section 7.4.1). 

Labeling of nucleic acids via JV-hydroxysuccinimide (NHS) esters of fluorescein (Research Organics) or Eu -chelates is straightforward. Nucleic acid should then possess reactive amino groups. These can be introduced by transamination (Section 7.8.1) or by using amino-hexyl-dNTP or AH-NTP as precursors during enzymatic probe synthesis (Section 7.6.2.2 Folsom et al., 1989). After AH-NTP incorporation in RNA (or AH-dNTP in DNA and heat-denaturation), the nucleic acid is diluted to 1 p,g in 25 p,l of HjO and added to 25 xl of freshly prepared 0.4 M sodium bicarbonate (pH about 8.2) and then to 10 pel of ester in DMF (1.7 mg/ml of ester final concentration). After incubation for 2 h, the reaction is stopped by adding 50 g.1 of 1... 

In the second step, the purified, transaminated DNA is brought to a higher pH (8.5-10) in order to decrease the protonation of the reactive amino group. Viscidi et al. (1986) labeled the N -substituted cytosine residue with biotin using the NHS-biotin ester, whereas, e.g., Hurskainen et al. (1991) labeled the same intermediate with a europium chelate (for time-resolved fluorescence). The Cq/qj increases about 1 log but this is compensated by the high probe concentration. This method yields probes with a similar detectability (10 molecules) as enzymatically labeled biotin probes, but the reagents are inexpensive and easily available. 

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