Preparation of Hydroxypyrazines

Direct ring syntheses are also available for the preparation of hydroxypyrazines. Thus, haloacylation of an a-aminoketone, followed by reaction with ammonia and oxidation represents a general synthesis of 5,6-disubstituted and 3,5,6-trisubstituted 2-hydroxypyrazines.339 This is illustrated by the preparation of 5,6-dimethyl-2-hydroxy-pyrazine (Scheme 39). Hydroxypyrazines are very conveniently... 

Jones (361) introduced a very convenient variation of this reaction for the preparation of hydroxypyrazines (55) in which a,/3-dicarbonyl compounds (49) were condensed with a-amino acid amides (54). In this way aminomalonamide (54, R = CONHj) with glyoxal in aqueous sodium hydroxide gave 3-carbamoyl-2-... 

The reactivity of 2-fluoropyrazine with aqueous sodium hydroxide to give 2-hydroxypyrazine has been investigated (882, 884). In 1.07N sodium hydroxide at 26° the reaction followed pseudo-first-order kinetics with a half-life of 43 minutes, whereas under the same conditions 2-chloropyrazine had a half-life of 18 days, and 2-iodopyrazine and 2-fluoropyridine remained unchanged (882, 884). Thus, under the above conditions, 2-fluoropyrazine was 640 times more reactive than 2-chloropyrazine (882). Hydrolysis of 2-fluoropyrazine in 61V hydrochloric acid proceeded at a much slower rate with a half-life of 4 days at room temperature (884). Some literature preparations of hydroxypyrazines by hydrolysis of halogenopyrazines (chloropyrazines with aqueous sodium or potassium hydroxide unless otherwise specified) are as follows 2-hydroxy (150°) (818) 2-hydroxy-3-methyl (reflux) (680) 2-hydroxy-3,5-dimethyl (reflux) (978) 3-hydroxy-2,5-dimethyl (reflux) (98, 312, 680, 740) [at 120° (978)] 3-hydroxy-2,5-di- -butyl (powdered potassium... 

The preparations of hydroxypyrazines by primary syntheses have been described in Chapter II, and are summarized briefly, together with further data, as follows Section II.IG, from the reaction of a, 3-dicarbonyl compounds with ammonia [282 (cf. 281, 280), 283, 285] with additional information (1042, 1043) Section II.IM, from 1,2-dicarbonyl compounds with a-amino acids (311) Section II.IN, from a-amino acids through piperazine-2,5-diones (93,95,101,282,312,313)with additional data (843) Section 11.10, from aldehyde cyanohydrins ( ) [317-319 (cf. 282)1 and Section II.IP, from o-nitromandelonitrile and ethereal hydrogen cyanide (325). The preparations from a,iJ-dicarbonyl compounds with a,/ -diamino compounds are described in Section 11.2 (60, 80, 358, 359, 361-365b, 365d, 366-375) additional data have also been reported (824, 825, 827,845,846,971, 1044, 1045) and some reaction products have been isolated as the dihydro-pyrazines (340,341,357). 

Diazotization of 2-aminopyrazine with nitrous acid in dilute or concentrated sulfuric acid gave 2 hydroxypyrazine (to 67% yield) (86, 477, 720, 818). Many such conversions have been described, mostly using nitrosylsulfuric acid in concentrated sulfuric acid solution. Preparations of hydroxypyrazines from the aminopyrazines are summarized as follows 2-hydroxy-3-methylpyrazine (sodium nitrite in concentrated sulfuric acid-acetic acid) (681), 2Jiydroxy-3,5-dimethylpyrazine (aqueous nitrous acid, then at 60°) (524), 3-hydroxy-2,5-dimethylpyrazine (477), 2,5-diethyl-3-hydroxypyrazine (aqueous nitrous acid) (478), 2-hydroxy-6-phenyl-pyrazine (365a), 24iydroxy-3,5-diphenylpyrazine (nitrous acid in N hydrochloric acid) (524), 3-hydroxy-2,5-diphenylpyrazine (282), 2-s-butyl-3-hydroxy-5-isobutyl-pyrazine (93), 5TS-butyl-3 hydroxy-2-isobutylpyrazine (92, 536), 2,5-di-s-butyl-3-hydroxypyrazine (89, 720), 3-hydroxy-2-isobutyl-5-isopropylpyrazine (103, 525), 2,3-dihydroxypyrazine (from 2 amino-3-hydroxypyrazine) (757, 1055) and its... 

PREPARATION OF HYDROXYPYRAZINE A-OXIDES AND EXTRANUCLEAR HYDROXYPYRAZINE A-OXIDES... 

Preparations of hydroxypyrazine A-oxides by primary syntheses have been included in Chapter III and are summarized briefly as follows Section 1II.3, 2-hydroxypyrazine 1-oxides from a-aminohydroxamic acids and 1,2-dicarbonyl compounds or a,/l-unsaturated a-bromo aldehydes (545-548) Section III.4, 2-hydroxy-3,6-dimethylpyrazine 1-oxide from the bisulfite derivatives of pyruvo-hydroxamic acid and aminoacetone (548) and Section III.5, ring closure of the C-C-N-C-C-N-0 system (545, 546, 548-553). In addition to these preparations... 

Ring substituents show enhanced reactivity towards nucleophilic substitution, relative to the unoxidized systems, with substituents a to the fV-oxide showing greater reactivity than those in the /3-position. In the case of quinoxalines and phenazines the degree of labilization of a given substituent is dependent on whether the intermediate addition complex is stabilized by mesomeric interactions and this is easily predicted from valence bond considerations. 2-Chloropyrazine 1-oxide is readily converted into 2-hydroxypyrazine 1-oxide (l-hydroxy-2(l//)-pyrazinone) (55) on treatment with dilute aqueous sodium hydroxide (63G339), whereas both 2,3-dichloropyrazine and 3-chloropyrazine 1-oxide are stable under these conditions. This reaction is of particular importance in the preparation of pyrazine-based hydroxamic acids which have antibiotic properties. 

The classical route to chloropyrazines is by treatment of a hydroxy-pyrazine with phosphoryl chloride bromopyrazines are similarly prepared by using phosphoryl bromide, phosphorus tribromide, or a mixture of both. Thus, treatment of hydro xypyrazine with phosphoryl chloride gives chloropyrazine in 92% yield,147 and treatment of the hydroxy compound with a mixture of phosphoryl bromide and phosphorus tribromide gives bromopyrazine in 58% yield.266 The use of phosphorus pentahalides frequently leads to substitution products (Scheme 22) for example, when hydroxypyrazine is treated with a mixture of phosphoryl bromide and phosphorus pentabromide both monobromo- and 2,6-dibromopyrazines are formed.287,268 Bromina-tion of hydroxypyrazine with bromine in the presence of small... 

Palamidessi and Bernardi have obtained 2-chloropyrazine 1-oxide by mild treatment of pyrazine 1,4-dioxide with phosphoryl chloride. The structure of the 1-oxide was confirmed by hydrolysis to 2-hydroxy-pyrazine 1-oxide, which was also prepared by direct synthesis from glyoxal and glycine hydroxamic acid.398 This synthesis is illustrative of a general method for preparing 2-hydroxypyrazine 1-oxides by condensation of a,/3-dicarbonyl compounds with a-aminohydroxamic acids. An analogous synthesis of 2-aminopyrazine 1-oxides has already... 

The preparation of 3,6-disubstituted 2-hydroxypyrazine 1-oxides from (11), which were derived from a-aminohydroxamic acids and a,fl-unsaturated a-bromo-... 

The reaction of simple hydroxypyrazines with phosphoryl chloride has been used extensively for the preparation of chloropyrazines. 2-Hydroxypyrazine with phosphoryl chloride alone (818) gave 2-chloropyrazine (819-821), and 2-chloro-[l- N]pyrazine (822) and 2-chloro(2- C)pyrazine (823) have been prepared by the method described by Karmas and Spoerri (362). 

Section II.S includes the cleavage of pteridines and related ring systems to yield hydroxypyrazines (375, 420, 429, 433-434, 440, 441,445,448,449). Additional data are given in references 372,907,1052 and 1053. 2-Amino-6-(p-fluorophenyl)-4-hydroxypteridine with 4A sodium hydroxide at 170 gave 3-carboxy-5-(p-fluorophenyl)-2-hydroxypyrazine, and a similar preparation of the isomeric 6-(p-fluorophenyl)pyrazine was also described (347). 

Amino-2prepared from 2-amino-3-cyanopyrazine 1-oxide by reflux with acetic acid-acetic anhydride followed by ready deacetylation by refluxing in methanol (538), and in a similar manner 3-amino-2-ethoxycarbonyl-5-hydroxypyrazine has been prepared from 2-amino-3-ethoxycarbonylpyrazine 1 -oxide through 3-acetamido-2-ethoxycarbonyl-5 ydroxy-pyrazine (538), and 2-amino-3-carbamoyl-6-hydroxy-5-methylpyrazine from 2-amino-3-cyano-5-methylpyrazine 1-oxide (538). The preparation of 24 ydroxy-6-methoxycarbonylpyrazine (10) has been claimed from 3-methoxycarbonylpyrazine 1-oxide with acetic anhydride followed by hydrolysis (1057) [cf. Nov Cek et al. (839), who claim it to be the 5-isomer, and Foks (744)]. 

The preparation of alkoxypyrazines by alkylation of hydroxypyrazines with several reagents is discussed in detail in Section 6D. Many such alkylations give rise to both N- and 0-alkyl derivatives. 

Preparations of mercaptopyrazines from hydroxypyrazines by reaction with phosphorus pentasulfide in boiling pyridine or 3-picoline have been reported in Chapter VI.6B. 

The diazotization of aminopyrazines has been described in earlier sections. Section V.IH records the preparation of 2-fluoropyrazine from 2-aminopyrazine in fluoroboric acid containing copper powder with sodium nitrite (882, 884) and Section V.ll the preparation of iodopyrazines from some aminopyrazines via isodiazotate salts (30) (887). These salts were assigned the isodiazotate structure, on the basis of their inability to couple with 0-naphthol in alkaline solution (887) and they were characterized by hydrolysis in cold 40% aqueous sulfuric acid to the hydroxypyrazine (887). Section V.I K describes the conversion of aminopyrazines to bromopyrazines (798, 800, 807, 890-892) for example, 2-amino-3-methoxy-carbonylpyrazine with hydrobromic acid, bromine, and sodium nitrite in water gave 2-bromo-3-methoxycarbonylpyrazine (798, 890). The diazotization of aminopyrazines to hydroxypyrazines has been described in Section VI. 1C, to alkoxy-pyrazines in Section V1.3C, and to oxopyrazines in Section V1.9A(5). 2-Amino-pyrazine with isopentyl nitrite in benzene gave 2-phenylpyrazine (45%) and some 2-isopentoxypyrazine and 2,2 -dipyrazinyl amino isomers (1211). 

The preparation of arylazo derivatives from hydroxypyrazines has been described in Section VI.6E and from l,4,6-trimethyl-3-methylene-2-oxo-l,2,3,4-tetrahydro-pyrazine to give l,4,6-trimethyl-2-oxo-3-phenykzomethylene-l,23,4-tetrahydro-pyrazine in Section VI.9B. In addition to these reactions Princivalle (1122) reports that 2reacted with benzenediazonium chloride and p-toluenediazonium chloride by elimination of the carboxy group para to the hydroxy group and coupling to form 2-hydroxy-3,6-dimethyl-5-phenyl-azo(and p-tolueneazo)pyrazines, respectively (1122), identical to those prepared from 3-hydroxy-2,5 -dimethylpyrazine. 

---