甲苯的真菌代谢:通过(19)F核磁共振光谱法监测氟化类似物
Fungal metabolism of toluene: monitoring of fluorinated analogs by (19)F nuclear magnetic resonance spectroscopy.
作者信息
Prenafeta-Boldú F X, Luykx D M, Vervoort J, de Bont J A
机构信息
Division of Industrial Microbiology, Wageningen University, 6700 EV Wageningen, the Netherlands.
出版信息
Appl Environ Microbiol. 2001 Mar;67(3):1030-4. doi: 10.1128/AEM.67.3.1030-1034.2001.
Abstract
We used isomeric fluorotoluenes as model substrates to study the catabolism of toluene by five deuteromycete fungi and one ascomycete fungus capable of growth on toluene as the sole carbon and energy source, as well as by two fungi (Cunninghamella echinulata and Aspergillus niger) that cometabolize toluene. Whole cells were incubated with 2-, 3-, and 4-fluorotoluene, and metabolites were characterized by (19)F nuclear magnetic resonance. Oxidation of fluorotoluene by C. echinulata was initiated either at the aromatic ring, resulting in fluorinated o-cresol, or at the methyl group to form fluorobenzoate. The initial conversion of the fluorotoluenes by toluene-grown fungi occurred only at the side chain and resulted in fluorinated benzoates. The latter compounds were the substrate for the ring hydroxylation and, depending on the fluorine position, were further metabolized up to catecholic intermediates. From the (19)F nuclear magnetic resonance metabolic profiles, we propose that diverse fungi that grow on toluene assimilate toluene by an initial oxidation of the methyl group.
摘要
我们使用异构氟甲苯作为模型底物,来研究五种能够以甲苯作为唯一碳源和能源生长的子囊菌和一种能够在甲苯上生长的担子菌对甲苯的分解代谢,以及两种共代谢甲苯的真菌(刺孢小克银汉霉和黑曲霉)对甲苯的分解代谢。将完整细胞与2-氟甲苯、3-氟甲苯和4-氟甲苯一起孵育,并用¹⁹F核磁共振对代谢产物进行表征。刺孢小克银汉霉对氟甲苯的氧化起始于芳环,生成氟化邻甲酚,或起始于甲基生成氟苯甲酸。甲苯生长的真菌对氟甲苯的初始转化仅发生在侧链上,并生成氟化苯甲酸酯。后一种化合物是环羟基化的底物,并根据氟的位置进一步代谢为儿茶酚中间体。根据¹⁹F核磁共振代谢谱,我们提出,在甲苯上生长的多种真菌通过甲基的初始氧化来同化甲苯。
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2
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Biodegradation. 1998;9(6):475-86. doi: 10.1023/a:1008391906885.
3
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10
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