Heterocycles isothiazole

The organo-lithium reagent can be made by exchange of Li for a halide or by deprotonation. With di-iodide 24, one iodine may be exchanged with one equivalent of BuLi and the aldehyde 25 is the product.6 The aromatic heterocycle isothiazole 26 has its most acidic hydrogen (marked) next to sulfur and it gives one aldehyde 27 in good yield.7... 

Ring transformation of the isothiazolium salts can be converted into N-, O- and S-heterocycles, isothiazole derivatives, annulated isothiazoles and rearrangement products such as thiadiazapentalenes, spirocyclic isothiazolium salts and thianthrenes. 

The reactivities of the isoxazoles are compared with those of benzene and some five-membered ring heterocycles in Table 7. Isoxazole is more reactive than benzene (by 4.3 log units) and isothiazole (0.8) and is less reactive than 1-methylpyrazole, furan, thiophene and 1-methylpyrrole. A 5-methyl substituent activates the nucleus more than does a... 

For such purposes as locating substituents, monocyclic heterocycles having only one non-carbon atom are numbered starting with the hetero atom as 1. If there is more than one hetero atom of the same kind, the more saturated hetero atom takes precedence (cf. imidazole in Table 1). In isoxazole and isothiazole, the divalent atom takes precedence, in conformity with the pnaciples of the Hantzsch-Widman system (Section 1.02.2.2). 

Cyclotrithiazyl chloride is also a useful reagent in organic chemistry in the fusion of 1,2,5-thiadiazoles to quinones as well as the synthesis of (a) isothiazoles from 2,5-disubstituted furans and (b) bis-1,2,5-thiadiazoles from A-alkylpyrroles (Scheme 8.4). Alkenes and alkynes react readily with (NSC1)3 to give 1,2,5-thiadiazoles, while 1,4-diphenyl-1,3-butadiene gives a variety of heterocyclic products including a bis(l, 2,5-thiadiazole). ... 

A novel simple heterocyclic system such as isothiazole has considerable potential in the fields of chemotherapy and pharmacology, and several examples are already known. 

Papers dealing with this topic are exhaustively reviewed in Comprehensive Heterocyclic Chemistry I (84CHEC-I(6)235) and II (96CHEC-II(3)373). Nevertheless, little information is available on the 5-oxides. Recently, the heteroaromaticity of thiazole compared with isothiazole and thiadiazole 5,5-dioxide systems was studied (97MI1). Quantum-chemical calculations and X-ray studies were performed on 3,3 -di[l,3-thiazolidin-4-one] derivatives (95JCC(25)589) studied for their potential biological activity (97FA(52)43). 

A powerful method of introducing a CF3 group into aromatics is the conversion of C02H with SF4. The use of SF4 with heterocyclics is not as widespread but it has been applied to imidazoles [81JFC(17)179], thiazoles, isothiazoles [91 JFC(55) 173], and furans (86BSF974). 

If ammonium thiocyanate is used, the ammonium ion can itself provide a nitrogen atom for heterocyclic ring construction. Such nitrogen and sulfur transfer is the basis of an elegant synthesis of isothiazoles (15) from 3-chloropropenals (16).18... 

Thiophene, furan, and isothiazole are the preferred heterocycles for cephalosporinase inhibition. However, thiophene is the preferred heterocycle. 

Sulfur. Thiophene and benzo[ >] thiophene are both aromatic heterocycles, as discussed earlier in this review. Isothiazole is a planar molecule with an aromaticity comparable with those of thiazole and pyrazole, and higher than those of isoxazole and oxazole,122 140 as evaluated on the basis of Bird s aromaticity index A, based upon the statistical degree of uniformity of the bond orders of the ring periphery. Theoretical calculations and experimental data in connection with the aromaticity of isothiazole have been reviewed.141 Thiazole is also viewed as an aromatic molecule, similar to thiophene. It lacks an experimental aromaticity value, but the heat of formation together with bond lengths and angles have been calculated by various computational meth-... 

In the last ten years extensive studies of homolytic arylation have been made in the following heterocyclic series furan, thiophene, thiazole, isothiazole, pyrazole, imidazole, ... 

A series of five-membered heterocycles with two and three heteroatoms were synthesized. 4-Hydroxyisothiazoles 57 were prepared from a-amino ketones with sulfur monochloride (1968BCJ959). Polar solvents, especially N,Af-dimethylfor-mamide, were preferable (Scheme 28). In a similar reaction of 1-amino-l-phenyl-2-propanone with sulfur monochloride 5-chlorinated isothiazole 58 was obtained in high yield. 

Addition of nucleophiles to the cyano group of cyanothiadiazole under basic conditions takes place with unusual ease <88AG(E)434,94ACS372). Hydrolysis to the amide, for example, can be effected at 0°C in the presence of a catalytic amount of sodium hydroxide or basic ion-exchange resin. At reflux temperature, hydrazine and monosubstituted hydrazines convert 3,4-dicyano-l,2,5-thia-diazole into the l,2,5-thiadiazole[3,4-. The base-catalyzed addition of acetone to cyanothiadiazole forms an enamino ketone, used as a key intermediate for the synthesis of a number of heterocyclic ring systems, e.g. isothiazole, isoxazole, pyrazole, pyrimidine, and thiazole <77H(6)1985>. 

Rees and co-workers in their study of the reactions of trithiazyl trichloride in the preparations of heterocyclic compounds have noted that the isothiazolo[5,4-, isothiazole compound 140 was produced in low yield on reaction with conjugated dienes, along with the other heterocyclic systems 142-145 in much higher yields (Equation 28). Since it is known that trithiazyl trichloride is in thermal equilibrium with its monomer NSCl (Equation 29), the authors propose the so-called criss-cross cycloaddition reaction (Equation 30) which has been reported for azabu-tadienes, but this represents the first example of such a criss-cross cycloaddition to an all-carbon diene <1998CC1207>. 

Much has been said about the application of this heterocyclic system in supramolecular chemistry and in materials chemistry, particularly in the preparation of organic conductors and superconductors. It should not be forgotten however that heterocyclic compounds in general are extremely important medicinal compounds. Although medicinal applications of this heterocyclic system have been rare in the years since CHEC-II(1996), some have been reported. Townsend and co-workers have described the preparation of imidazo[4,5-r/ isothiazole nucleosides 174-177 and have demonstrated their properties as antiproliferative and antiviral analogues of the antibiotic nebularine 172 and the highly cytotoxic 6-methylpurine nucleoside 173 <1997JME771>. 

Isoxazole, pyrazole and isothiazole constitute the 1,2-azole family of heterocycles that contain two hetero-atoms, one of which is a nitrogen atom. The second hetero-atom is oxygen, nitrogen or sulphur, respectively. 

The Balz-Schiemann synthesis can be applied not only to substituted anilines but also to aminobiphcnyls1,131 or amino-substituted fused polyaromatic compounds, such as naphthalene,1114,119,129 anthracene,136 phenanthrene,1135 acenaphthene,133 fluorene,1,131,134 benzanthracene,130 136 pyrene,136 chrysene,136 fluoranthene,131 fluorenone,1,131 anthra-quinone,1,137,139,140 benzanthrone,1,117,118 phenanthraquinone,138 or xanthone.132 Fluorinated pyridines,1,141"146 methylpyridincs,126,147 149 pyridinecarboxylic acids,150 quinolines,1,151 isoquinolines,152 quinazolone,1 thiazoles,153,154 isothiazoles,156 benzothiazoles,157 thiadiazoles,155 and thiophenes154 can also be obtained from the corresponding aminated heterocycles. Modified Balz-Schiemann methods are recommended for amino nitrogen-containing heterocycles, the diazonium salts of which are rather water-soluble and unstable (a violent explosion was reported for pyridine-3-diazonium tetrafluoroborate).159 These new techniques have also been specially adapted for pyrazol-, imidazol-, or triazolamines which fail to react under classical conditions.158... 

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