Quaternary nitrogen salts

Other derivatives were synthesized where the 3 substituent was in turn an halide [14], a nitrogen quaternary salt-containing side chains [15], an O-alkylamine [15], a nitro group [15], an azido group [16], a functionalized C-2 unit [17]. Several fluorinated analogues of Combretastatins A-1 and A-4 were synthesized and their in vitro anticancer properties determined. The most active fluoro analogue 3 -deoxy-3 -fluoro-combretastatin A-4 retains the potent cell growth inhibitory properties of Combretastatin A-4 [14]. 

Imino-4-thiazolines are far more basic than their isomeric 2-aminothiazoles (see Table VI-1). They react with most electrophDic centers through the exocyclic nitrogen and are easily acylated (37, 477, 706) and sulfonated (652). The reaction of 2-imino-3-methyi-4-thiazoline (378) with a-chloracetic anhydride yields 379 (Scheme 217) (707). This exclusive reactivity of the exocyclic nitrogen precludes the direct synthesis of endocyclic quaternary salts of 2-imino-4-thiazolines. although this class of compounds was prepared recently according to Scheme 218 (493). 

Reaction with vatious nucleophilic reagents provides several types of dyes. Those with simple chromophores include the hernicyanine iodide [16384-23-9] (20) in which one of the terminal nitrogens is nonheterocyclic enamine triearbocyanine iodide [16384-24-0] (21) useful as a laser dye and the merocyanine [32634-47-2] (22). More complex polynuclear dyes from reagents with more than one reactive site include the trinuclear BAB (Basic-Acidic-Basic) dye [66037-42-1] (23) containing basic-acidic-basic heterocycles. Indolizinium quaternary salts (24), derived from reaction of diphenylcyclopropenone [886-38-4] and 4-picoline [108-89-4] provide trimethine dyes such as (25), which absorb near 950 nm in the infrared (23). 

Pyrazoles and imidazoles carrying a substituent on nitrogen, as well as oxazoles, thiazoles, etc., are converted by alkyl halides into quaternary salts. This is Illustrated by the preparation of thiamine (89) from components (87) and (88). 

Amino and sulfur analogues of pyrazolones also yield the aromatic quaternary salt (231 X = NH or S). If the pyrazole bears a substituent with a second pyridine-like nitrogen atom, an intramolecular bridge can be formed by reaction with a dihalogenoalkane. Thus pyrazol-I -ylpyridines react with 1,2-dibromoethane to form (233) (81JHC9). 

Dimethylaminopyrazoles react with alkylating agents to afford quaternary salts (72BSF2807). The nitrogen atom of the dimethylamino group is the most reactive in the case of 3-dimethylamino- and 4-dimethylamino-pyrazoles (formation of 456 and 457 salts, respectively) whereas 5-dimethylaminopyrazoles yield aminopyrazolium salts (458). 

The reduction of iminium salts can be achieved by a variety of methods. Some of the methods have been studied primarily on quaternary salts of aromatic bases, but the results can be extrapolated to simple iminium salts in most cases. The reagents available for reduction of iminium salts are sodium amalgam (52), sodium hydrosulfite (5i), potassium borohydride (54,55), sodium borohydride (56,57), lithium aluminum hydride (5 ), formic acid (59-63), H, and platinum oxide (47). The scope and mechanism of reduction of nitrogen heterocycles with complex metal hydrides has been recently reviewed (5,64), and will be presented here only briefly. 

Most N-phenyl quaternary salts are not prepared by direct quater-nization but rather by introducing the nitrogen substituent before ring closure. It has recently been found that diphenyl iodonium boro-fluoride reacts smoothly with pyridine the phenyl carbonium ions formed give the 1-phenylpyridinium ion good yield. ... 

The 5H-imidazole ring (37) possesses two nitrogen atoms with lone pairs e,vailable for quaternary salt formation, but unlike those in the... 

In a 1-substituted 1,2,3-triazole (79), both the 2- and 3-nitrogen atoms possess lone pairs of electrons that are available for quaternary salt formation, and quatemization is known to occur at the 3-nitrogen atom to give the symmetrical cation (80). Thus, the reaction between 1-methyl-l,2,3-triazole and benzyl iodide yields the same salt as is obtained from the interaction of 1-benzyl-1,2,3-triazole and methyl iodide the salt must therefore be 80 (R = Me, R = PhCH2,... 

Two interesting cases of quaternary salt formation are illustrated by compounds 88 and 90 (Z = CH) which contain fused quinoline and triazole rings. In these compounds both of the nitrogen atoms unique to the triazole ring possess lone pairs of electrons which are available for reaction. With compound 88 reaction occurs to give 89, but in... 

The introduction of a nitrogen atom into the benzene ring of indole affords a center, not present in indole itself, at which quaternary salt formation occurs readily, and the base 95 is converted into a quaternary salt (96) on the pyridine-type nitrogen atom. ... 

The corresponding [5,4-6]-compound (107) was prepared similarly and treated with methyl iodide to give a quaternary salt which was shown to have structure 108, because mild alkaline hydrolysis gave 3-acetamido-l-methyl-2-pyridone. Again, quaternization took place on the pyridine-nitrogen, which is different from the behavior of the corresponding 1,4-diazaindene mentioned above. 

Because of the basic nitrogen atom, alkyl-selenazoles form quaternary salts. 2,4-Dimethyl-3-ethylselenazolium iodide (mp 157-158 0) was prepared by Brooker et al in 87% yield as colorless crystals by heating of 2,4-dimethylselenazole in excess ethyl iodide for 2 days. By reaction with the corresponding quaternary salts, the following cyanine dyes (8) were prepared" l 3-diethyl-4-methylselenazolo-2 -... 

Quatemization of the isoxazole nitrogen atom makes the ring particularly susceptible toward nucleophilic attack there is a certain analogy here with pyridine. The cleavage of the ring proceeds extremely readily in quaternary salts of isoxazole, even occurring by the action of such weak nucleophilic agents as the anions of carboxylic acids. 

Quaternary salts are obtained by alkylation of selenazole bases, the heterocyclic nitrogen atom playing the role of nucleophile with regard to the electrophilic carbon of the alkylating agent. 

Phosphines behave similarly, and compounds of the type R3P and R4P X can be so prepared. The reaction between triphenylphosphine and quaternary salts of nitrogen heterocycles in an aprotic solvent is probably the best way of dealkylating the heterocycles, for example, ... 

Salts of nitrogenous molecules with carboxylic acids (fatty acids, naphthenic acids) Nitrogen quaternaries... 

Ammonium ylides can also be generated when one of the nitrogen substituents has an anion stabilizing group on the a-carbon. For example, quaternary salts of /V-allyl a-aminoesters readily rearrange to y,8-unsaturated a-aminoesters.286... 

An appropriately functionalized isoquinoline (38) bearing a benzyl group is prepared from an aromatic aldehyde (37). The benzyl position is metalated with LDA and the resulting carbanion is reacted with a highly substituted methyl benzoate to produce a ketone (39). The isoquinoline nitrogen is alkylated with ethyl a-bromoacetate and the resulting quaternary salt is cyclized... 

Some alkylations of ring nitrogen atoms are shown in Scheme 5. Study on alkylation of the [l,2,4]triazolo[5,l-cHl /lltriazine derivative 41 have been carried out by Chupakhin and co-workers <2002IZV1594>. The best result was obtained with triethyloxonium tetrafluoroborate as a reagent. The ethylation was found to proceed selectively on N-4 atom in the six-membered ring to result in formation of the quaternary salt 42. 

By contrast, compounds (65) undergo methylation at the nitrogen atom to give (66).140 The quaternary salts (66) were also isolated with BPh4 or SbCl6- anions. 

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