From imidazoles

Azole anions are derived from imidazoles, pyrazoles, triazoles or tetrazoles by proto loss from a ring NH group. In contrast to the neutral azoles, azole anions show enhance reactivity toward electrophiles, both at the nitrogen (Section 4.02.1.3.6) and carbon aton (Section 4.02.1.4.1(i)). They are correspondingly unreactive toward nucleophiles. 

Solladie and coworkers avoided the use of a sulfinyl chloride when they prepared (— )-menthyl 1-naphthalenesulfinate in an overall yield of 45% by the reaction of thionyl diimidazole, obtained from imidazole and thionyl chloride, with 0.7 equivalent of ( — )-menthol followed by 1 equivalent of 1-naphthylmagnesium bromide (equation 4). 

For quantitative work, it is necessary to estimate the concentration of 5-amino-l-(P-D-ribofuranosyl)imidazole in aqueous solution. It seems that the only available method is the Bratton-Marshall assay, which was originally developed for the estimation of arylamines in biological fluids. The principle of the method is the spectrometric estimation of a salmon-pink colored dyestuff obtained by diazotation in situ, followed by coupling with /V-( 1 -naphthyl)ethyl-enediamine.65 The only remaining problem then is to know the molar extinction of this dye because pure samples of AIRs are not available. A value of 16800 at 520 nM was obtained for the dyes prepared from a model compound, 5-amino-l-cyclohexylimidazole-4-carboxylic acid (54), which is crystalline. A comparable molar extinction can be expected for the dye prepared from imidazole 55, if the carboxyl group does not exert too much influence on the chromophore. Actually, its influence is perceptible even with the naked eye, the dyestuff prepared from 53 having a somewhat different, wine-red color, with max>520 nM. The molar extinction for 55 is 17400 at 500 nM. When the decarboxylation of 54 was conducted under mild acidic conditions (pH 4.8, 50°C, 1 hour), estimation of 5-aminoimidazole 55 by the Bratton-Marshall method led to the conclusion that the reaction was almost quantitative.66 Similar conditions for the final decarboxylation were adopted in the preparation of samples of AIRs labeled with stable isotopes.58... 

Fig. 13. Cooperative closed dimers assembled from imidazole-functionalized porphyrins.

The use of AMximethylsilylimidazole has been suggested in the reaction with acid chlorides to form imidazolides.[3] In fact, the rate of conversion to imidazolides by reaction of iV-trimethylsilylimidazole with acid chlorides is remarkably rapid even at rather low temperatures. On the other hand, the preparation of the N-trimethylsilylimid-azole from imidazole requires the heating of imidazole with hexamethyldisilazane for several hours. 

The required imidazolide in this reaction could also be prepared from imidazole and dicyclohexylcarbodiimide. The latter method was used for preparation of the fairly stable... 

Imidazole-iV-carboxylates can also be prepared from imidazole and chloro-formate.[229]... 

Apart from imidazol-2-ylidene carbenes, other electron-rich carbenes such as (L27)—generated by deprotonation of a 4,5-dihydroimidazole—have been tested for cross-coupling reactions, but gave much poorer results. The only reported exception is in the cross-coupling of arenediazonium salts with arylboronic acids, in which (L27) (used as hydrochloride) proved to be efficient.369... 

The most common ligands are those derived from imidazole and benzimidazol (Scheme 54), followed by the (benz)thiazols. The free Wanzlick-Arduengo carbenes can be isolated and employed for the synthesis of the complexes, but often it is more convenient to prepare the carbenes in situ from the dimers or the corresponding onium salts, or to use carbene-transfer reactions.256-259... 

Analogously, 5-tributylstannylimidazole 29 was easily obtained from the regioselective deprotonation of 1,2-disubstituted imidazole 28 at C(5) followed by treatment with tributyltin chloride [24]. In the presence of 2.6 equivalents of LiCl, the Stille reaction of 29 with aryl triflate 30 afforded the desired 1,2,5-trisubstituted imidazole 31 with 2,6-di-tert-butyl-4-methylphenol (BHT) as a radical scavenger. Reversal of the nucleophile and electrophile of the Stille reaction also provided satisfactory results. For example, the coupling reaction of 5-bromoimidazole 33, derived from imidazole 32 via a regioselective bromination at C(5), and vinylstannane 34 produced adduct 35 [24],... 

Extending the aforementioned methodology from imidazole to adenine, the Tsuji-Trost reaction between the sodium salt of adenine and allylic acetate 66 gave 67 as a 82 18 mixture of cis trans isomers. Carbocyclic nucleoside 67 was advantageous over normal nucleosides as a drug candidate because it was not susceptible to degradation in vivo by nucleosidases and phosphorylases [52],... 

In the reaction with PNPA, myristoylhistidine [29] in a cationic micelle rapidly forms acetylimidazole as a fairly stable intermediate which is readily observable at 245 nm. On the other hand, a mixed micelle of [29] and N,N-dimethyl-N-2-hydroxyethylstearylammonium bromide [30] leads to the formation and decay of the intermediate, indicating that the acetyl group is transferred from imidazole to hydroxyl groups (Tagaki et al., 1977 Tagaki et al., 1979). This can be a model of cr-chymotrypsin which catalyses hydrolysis of PNPA (non-specific substrate) by initial acylation of the histidyl imidazole followed by acyl transfer to the seryl hydroxyl group (Kirsh and Hubbard, 1972), as indicated schematically in (12). 

The preparation of imidazo[2,l-h][l,3,4]thiadiazoles from imidazoles was reported only in a few cases. Thus treatment of A-acetylamino-2-mercapto-imidazole with POCI3 yields 113 (63LA113 77M665). Cyclocondensation of 114 with thiocyanates in PPA gives 115 (94KGS421). 

Imidazo[l,5-i]pyrazoles (269) have also been prepared from imidazole intermediates. Thus, treatment of 295 with sufuryl chloride gives 296 (69JOC3213). Perhydroimidazo[l,5-l>]pyrazolones (299) are obtained as... 

From imidazole by condensation with glycocoll and simultaneous oxidation histidine may possibly be formed thus —... 

Apart from imidazol-2-ylidenes (IV), eight other types of carbenes are included in this category imidazolidin-2-yhdenes (III), tetrahydropyrimid-2-yhdene (V)," ° benzimidazol-2-ylidene (VI)," l,2,4-triazol-5-ylidene (VII)," l,3-thiazol-2-yli-denes (VIII), as well as acyclic diamino- aminooxy- and aminothio-carbenes (XI) (Fig. 8.5). 

Apart from imidazole derivative e.g. metronidazole, tinidazole, nimorazole etc. and other agents such as hydroxy quinolines, iodine preparation (povidoneiodine) and antifungal antibiotics e.g. clotrimazole (used mainly as vaginal pessaries), there are some other compounds which are mainly used in the treatment of trypanosomiasis. They are ... 

Considerable work has been devoted to the search for agents devoid of the sedative effect that accompanied some of the earlier antihistamines. One stratagem for achieving that comprises adding a function that will diminish the likelihood that the dmg will cross the blood-brain barrier. The antistamine emedastine (41-3), for example, incorporates a terminal ether that can be potentially metabolized to a carboxylic acid. Alkylation of the imidazole (41-1), available from imidazol-2-one by reaction with phosphoms oxychloride, with the chloroether (41-2) leads to a reaction on nitrogen to afford (41-3). Displacement of the enol chloride in that intermediate with A-methyl-l-4-diazepine (41-4) leads to emedastine (41- 5) [43]. 

Yet a further variation of this theme consists in the replacement of the bridging methylene group by sulfur to give a thiadiazepine as the central ring. The starting thiophene ether (26-3) is obtained by the nucleophilic aromatic displacement of fluorine in nitrobenzene (26-1) by the anion from imidazole-2-thiol (26-2). The nitro... 

The Hammett cr+ constant for the 4(5)-position of imidazole is around -1 for C-2 it is of the order -0.8 (86CHE587). The electrophilic substitutions which do occur at the 2-position invariably involve preformation of an anion at that position. The 2-proton, which should be the least active in a conventional SEAr sense, turns out to be the most labile over a wide pH range, and there is a marked rate acceleration on going from imidazole to imidazolium cation. Any negative charge generated at C-2 is stabilized by the adjacent pyrrole-type nitrogen (see Section 3.4.1.8.2). 

Figure 3-30 Spectra of the pyridoxal phosphate (PLP), pyridoxamine phosphate (PMP) and apoenzyme forms of pig cytosolic aspartate aminotransferase at pH 8.3, 21 °C. Some excess apoenzyme is present in the sample of the PMP form. Spectra were recorded at 500 MH2. Chemical shift values are in parts per million relative to that of HzO taken as 4.80 ppm at 22°C. Peak A is from a proton on the ring nitrogen of PLP or PMP, peaks B and D are from imidazole NH groups of histidines 143 and 189 (see Fig. 14-6), and peaks C and D are from amide NH groups hydrogen bonded to carboxyl groups.

---