Deuterium labelling aromatic substitution

The ester-substituted complex (34) has been used in synthesis of (+)- and (-)-shikimic acid, an important intermediate in the biosynthesis of aromatic compounds, as well as stereospecifically deuterium labeled shikimic acid.60 Addition of hydroxide anion to (+)-(34) gives the diene complex (+)-(182),... 

Another instructive scenario may be found when considering the metalation of arenes. There are two distinct mechanisms for the metalation of aromatic C-H bonds - electrophilic substitution and concerted oxidative addition (Box2). The classical arene mercuration, known for more than a century, serves to illustrate the electrophilic pathway whereas the metal hydride-catalyzed deuterium labeling of arenes document the concerted oxidative addition mechanism [8, 17]. These two processes differ both in kinetic behavior and regioselectivity and thus we may appreciate the need to differentiate these two types of process. However, the choice of C-H bond activation to designate only one, the oxidative addition pathway, creates a similar linguistic paradox. Indeed, it is hard to argue that the C-H bond in the cationic cr-complex is not activated. 

Cyclopropene and its deuterium-labelled derivatives can be obtained by the photo-decarbonylation of the corresponding furan at 254 nm but the method is of strictly limited value because of the photolability of many cyclopropenes (Section IV.B.2). West and his coworkers have shown that aryltrihalo- and diaryldihalocyclopropenes are available from classical Friedel-Crafts aromatic substitution reactions employing the cyclopropenyl cation as electrophile. Thus tetrachlorocyclopropene is converted to its derived cation which is then allowed to react with an aromatic compound. The exothermic reaction provides monoarylcyclopropene at low ( 0°C) temperature and the diaryl derivative at higher ( > 50° C) temperature (equation 26). In this way 2-phenyl-1,3,3-trichlorocyclopropene can be obtained in 58 % yield and the p-fluorophenyl analogue in... 

Reactions of Pyrazoles. A -Nitropyrazoles nitrate aromatic compounds under L wis acid conditions. Pyrazole as a nucleophile undergoes two successive cine-substitutions with 1,4-dinitropyrazole, yielding the terpyrazolyl (256). Irradiation of the deuterium-labelled cyanopyrazole (257) affords a mixture of the isomeric imidazoles shown in Scheme 5. ... 

Miller and coworkers have used deuterium labelling to study the mechanism of the electrophilic aromatic substitution reactions of jS-aryl-a,jS-unsaturated diazoalkanes. It had been proposed that the reaction proceeded via an Sti electrocyclic ring closure followed by a [1,5] sigmatropic hydrogen shift (equation 36). 

The first mass spectrometric investigation of the thiazole ring was done by Clarke et al. (271). Shortly after, Cooks et al., in a study devoted to bicydic aromatic systems, demonstrated the influence of the benzo ring in benzothiazole (272). Since this time, many studies have been devoted to the influence of various types of substitution upon fragmentation schemes and rearrangements, in the case of alkylthiazoles by Buttery (273) arylthiazoles by Aune et al. (276), Rix et al. (277), Khnulnitskii et al. (278) functional derivatives by Salmona el al. (279) and Entenmann (280) and thiazoles isotopically labeled with deuterium and C by Bojesen et al. (113). More recently, Witzhum et al. have detected the presence of simple derivatives of thiazole in food aromas by mass spectrometry (281). 

It is possible to replace the ring hydrogens of many aromatic compounds by exchange with strong acids. When an isotopically labeled acid such as D2S04 is used, this reaction is an easy way to introduce deuterium. The mechanism is analogous to other electrophilic substitutions ... 

The application of the twin ion technique [257] is also of importance in metabolism studies. The doubly labelled steroids [4- C+ 7-l- Ho.44]-androstenedione and [4- C + 7/3- Ho.42]-testosterone, were incubated with human placental microsomes and the resulting metabolites quantitated by counting C and identified by GC-MS [258]. The identified metabolites 17/8,19-dihydroxyandrost-4-en-3-one, 19-hydroxyandrost-4-en-3,17-dione, 17/8-hydroxy-3-oxo-androst-4-en-3-one, 3,17-dioxoandrost-4-en-19-al, oestradiol-17/3 and oestrone were easily recognisable from the double sets of relevant ions in their spectra due to the mixture of hydrogen and deuterium substitution at C-7. Hence the presence of the aromatizing enzymes in the placental preparation and the intermediates in oestrogen biosynthesis were confirmed. 

Capillary zone electrophoresis with microchip-based SCCE has been used to separate fluorescent dye from degradation products and to separate fluorescein isothiocyanate (FITC) labeled amino acids. Capillary zone electrophoresis (CZE) in fused-silica capillaries has been used to separate the racemic mixtures of (a-hydroxybenzyl)methyltrimethylammonium and (2-hydroxy-l-phenyl)ethyltrimethylammonium with f)-cyclodextrin as the chiral pseudo-stationary phase. L-Phenylalanine and L-phenylalanine-ring-D5 (the hydrogens in the aromatic ring were substituted with deuterium) and another separation of the closely related amino acids phenylalanine and tyrosine have been resolved using CZE with capillary-based SCCE. ... 

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