- Phenazine
Chembox new
Name = Phenazine
ImageFile = Phenazine.png
IUPACName = Phenazine
Section1 = Chembox Identifiers
CASNo = 92-82-0
SMILES = c12nc(C=CC=C3)#c3nc1cccc2
PubChem = 4757
Section2 = Chembox Properties
Formula = C12H8N2
MolarMass = 180.18 g/mol
Density =
MeltingPtC = 177
BoilingPt =Phenazine (C12H8N2 or C6H4N2C6H4), also called azophenylene, dibenzo-p-diazine, dibenzopyrazine, and acridizine, is a dibenzo annulated
pyrazine and the parent substance of manydye stuffs, such as theeurhodine s,toluylene red ,induline s andsafranine s.ynthesis
A classic method for the synthesis of phenazine is the reaction of nitrobenzene and aniline in the
Wohl-Aue reaction (1901). Other methods are known, e.g.:* by distilling the
barium salt ofazobenzoate
* by passinganiline vapor overlead oxide
* by the oxidation ofdihydrophenazine , which is prepared by heatingpyrocatechin witho-phenylenediamine .
* It is also formed when ortho-aminodiphenylamine isdistill ed overlead peroxide .Phenazine
crystal lizes in yellow needles which melt at 174-177 °C, and are only sparingly soluble inalcohol .Sulfuric acid dissolves it, forming a deep-red solution.Derivatives
* The more complex phenazines, such as the
naphthophenazine s,naphthazine s andnaphthotolazine s, may be prepared by condensing ortho-diamines with ortho-quinones [OrgSynth | author = Alexander R. Surrey | title = Pyocyanine | collvol = 3 | collvolpages = 753 | year = 1955 | prep = cv3p0753] or by theoxidation of an ortho-diamine in the presence of α-naphthol , and by the decomposition of ortho-anilido-(-toluidido- et cetera)-azo compound s with diluteacid s.
* If alkyl or aryl-ortho-diamines be used,azonium bases are obtained. The azines are mostly yellow in color, distill unchanged and are stable tooxidant s. They add onalkyl iodide s readily, forming alkyl azonium salts,anhydride formation also taking place between thesehydroxyl groups. It dissolves in concentrated sulfuric acid with a yellowish-greenfluorescence .
* Therhodamine s, which are closely related to the phthaleins, are formed by the condensation of thealkyl metaaminophenols withphthalic anhydride in the presence of sulfuric acid. Theirsalt s are fine red dyes. By the entrance ofamino orhydroxyl groups into themolecule dyestuffs are formed. The mono-amino derivatives or eurhodines are obtained when the arylmonamines are condensed with orthoamino azo compounds; by condensing quinone dichlorimide or para-nitrosodimethyl aniline with monamines containing a free para position, or by oxidizing ortho-hydroxydiaminodipbenylamines. They are yellowish-red solids, which behave as weak bases, their salts undergoinghydrolytic dissociation inaqueous solution . When heated with concentratedhydrochloric acid the amino group is replaced by the hydroxyl group and thephenolic eurhodol s are produced.Diaminophenazine
.
Natural products
Many phenazine compounds are found in nature and are produced by bacteria such as "
Pseudomonas " spp., "Streptomyces " spp., and "Pantoea agglomerans". These phenazinenatural products have been implicated in the virulence and competitive fitness of producing organisms. For example, the phenazine pyocyanin produced by "Pseudomonas aeruginosa " contributes to its ability to colonise the lungs ofcystic fibrosis patients. Similarly, phenazine-1-carboxylic acid, produced by a number of Pseudomonas, increases survival in soil environments and has been shown to be essential for the biological control activity of certain strains. [cite journal | author = Turner, J. M. and A. J. Messenger | year = 1986 | title = Occurrence, biochemistry, and physiology of phenazine pigment production | journal =Advances in Microbial Physiology | volume = 27 | pages = 211–275 | doi = 10.1016/S0065-2911(08)60306-9] [cite journal | author = McDonald, M., D. V. Mavrodi, et al. | year = 2001 | title = Phenazine biosynthesis in Pseudomonas fluorescens: Branchpoint from the primary shikimate biosynthetic pathway and role of phenazine-1,6-dicarboxylic acid | journal =J. Am. Chem. Soc. | volume = 123 | issue = 38 | pages = 9459–9460 | doi = 10.1021/ja011243+]Biosynthesis
Phenazine biosynthesis branches off the shikimic acid pathway at a point subsequent to
chorismic acid . Two molecules of this chorismate-derived intermediate are then brought together in a diagonally-symmetrical fashion to form the basic phenazine scaffold. Sequential modifications then lead to a variety of phenazine with differing biological activities.References
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