Bumpus J A, Brock B J
Biology Department, Utah State University, Logan 84322-4430.
Appl Environ Microbiol. 1988 May;54(5):1143-50. doi: 10.1128/aem.54.5.1143-1150.1988.
Biodegradation of crystal violet (N,N,N',N',N'',N''-hexamethylpararosaniline) in ligninolytic (nitrogen-limited) cultures of the white rot fungus Phanerochaete chrysosporium was demonstrated by the disappearance of crystal violet and by the identification of three metabolites (N,N,N',N',N''-pentamethylpararosaniline, N,N,N',N''-tetramethylpararosaniline, and N,N',N''-trimethylpararosaniline) formed by sequential N-demethylation of the parent compound. Metabolite formation also occurred when crystal violet was incubated with the extracellular fluid obtained from ligninolytic cultures of this fungus, provided that an H2O2-generating system was supplied. This, as well as the fact that a purified ligninase catalyzed N-demethylation of crystal violet, demonstrated that biodegradation of crystal violet by this fungus is dependent, at least in part, upon its lignin-degrading system. In addition to crystal violet, six other triphenylmethane dyes (pararosaniline, cresol red, bromphenol blue, ethyl violet, malachite green, and brilliant green) were shown to be degraded by the lignin-degrading system of this fungus. An unexpected result was the finding that substantial degradation of crystal violet also occurred in nonligninolytic (nitrogen-sufficient) cultures of P. chrysosporium, suggesting that in addition to the lignin-degrading system, another mechanism exists in this fungus which is also able to degrade crystal violet.
白腐真菌黄孢原毛平革菌在木质素分解(氮限制)培养物中对结晶紫(N,N,N',N',N'',N''-六甲基副蔷薇苯胺)的生物降解通过结晶紫的消失以及对由母体化合物连续N-去甲基化形成的三种代谢物(N,N,N',N',N''-五甲基副蔷薇苯胺、N,N,N',N''-四甲基副蔷薇苯胺和N,N',N''-三甲基副蔷薇苯胺)的鉴定得以证明。当结晶紫与从该真菌的木质素分解培养物中获得的细胞外液一起孵育时,只要提供一个产生H2O2的系统,也会发生代谢物的形成。这一点,以及纯化的木质素酶催化结晶紫的N-去甲基化这一事实,表明该真菌对结晶紫的生物降解至少部分依赖于其木质素降解系统。除了结晶紫外,还表明该真菌的木质素降解系统能降解其他六种三苯甲烷染料(副蔷薇苯胺、甲酚红、溴酚蓝、乙基紫、孔雀绿和亮绿)。一个意外的结果是,在黄孢原毛平革菌的非木质素分解(氮充足)培养物中也发生了大量的结晶紫降解,这表明除了木质素降解系统外,该真菌中还存在另一种能够降解结晶紫的机制。