New pathway for the biodegradation of indole in Aspergillus niger.

A V Kamath; C S Vaidyanathan

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New pathway for the biodegradation of indole in Aspergillus niger.

机译：黑曲霉中吲哚生物降解的新途径。

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Indole and its derivatives form a class of toxic recalcitrant environmental pollutants. The growth of Aspergillus niger was inhibited by very low concentrations (0.005 to 0.02%) of indole, even when 125- to 500-fold excess glucose was present in the medium. When 0.02% indole was added, the fungus showed a lag phase for about 30 h and the uptake of glucose was inhibited. Indole was metabolized by a new pathway via indoxyl (3-hydroxyindole), N-formylanthranilic acid, anthranilic acid, 2,3-dihydroxybenzoic acid, and catechol, which was further degraded by ortho cleavage. The enzymes N-formylanthranilate deformylase, anthranilate hydroxylase, 2,3-dihydroxybenzoate decarboxylase, and catechol dioxygenase were induced by indole as early as after 5 h of growth, and their activities were demonstrated in a cell-free system.

机译：吲哚及其衍生物形成一类有毒的顽固性环境污染物。即使培养基中存在125至500倍过量的葡萄糖，黑曲霉的生长也会受到极低浓度（0.005至0.02％）的吲哚的抑制。当加入0.02％的吲哚时，真菌表现出约30小时的滞后期，并且抑制了葡萄糖的摄取。吲哚通过新途径通过吲哚（3-羟基吲哚），N-甲醛基邻氨基苯甲酸，邻氨基苯甲酸，2,3-二羟基苯甲酸和邻苯二酚代谢，并通过邻位裂解进一步降解。早在生长5小时后，吲哚就诱导了N-甲醛基邻氨基苯甲酸酯去甲酰基化酶，邻氨基苯甲酸羟化酶，2，3-二羟基苯甲酸酯脱羧酶和儿茶酚双加氧酶，并在无细胞系统中证明了它们的活性。

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《Applied and Environmental Microbiology 》 |1990年第1期| 共6页
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A V Kamath; C S Vaidyanathan;
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1. New pathway for the biodegradation of indole in Aspergillus niger. [J] . A V Kamath, C S Vaidyanathan Applied and Environmental Microbiology . 1990 ,第1期

机译：黑曲霉中吲哚生物降解的新途径。
2. Regulation of pentose catabolic pathway genes of Aspergillus niger. [J] . Groot M J L de, Dool C van den, Wosten H A B, Food Technology and Biotechnology . 2007 ,第2期

机译：黑曲霉戊糖分解代谢途径基因的调控。
3. Increased NADPH concentration obtained by metabolic engineering of the pentose phosphate pathway in Aspergillus niger. [J] . Poulsen B R, Nohr J, Douthwaite S, The FEBS journal . 2005 ,第6期

机译：通过黑曲霉中戊糖磷酸途径的代谢工程获得的增加的NADPH浓度。
4. A qPCR Array (QuantArray) Demonstrates Enhanced Biodegradation at Petroleum-Impacted Sites and Confirms the Importance of Recently Elucidated Pathways for Anaerobic Hydrocarbon Biodegradation [C] . Anita Biernacki, Dora Ogles, Brett R. Baldwin International Conference on Remediation of Chlorinated and Recalcitrant Compounds . 2014

机译：QPCR阵列（QuantraRay）证明了石油影响位点增强的生物降解，并证实了最近阐明了厌氧烃生物降解的途径的重要性
5. Studies on the biosynthesis of prenylated indole secondary metabolites from Aspergillus versicolor and Aspergillus sp.; and A novel approach to tumor specific drug delivery: Use of a naphthyridine drug linker with a DNA hairpin [D] . Finefield, Jennifer M. 2011

机译：杂色曲霉和曲霉菌的烯丙基化吲哚二级代谢产物的生物合成研究；和肿瘤特异性药物递送的新方法：萘啶药物接头与DNA发夹的结合使用
6. New pathway for the biodegradation of indole in Aspergillus niger. [O] . A V Kamath, C S Vaidyanathan 1990

机译：黑曲霉中吲哚生物降解的新途径。
7. Metabolism of NAD in Aspergillus niger. II. Formation of nicotinamide ribose diphosphate ribose, a new metabolite of the NAD pathway, by growing mycelium of Aspergillus niger. [O] . Masaaki KUWAHARA 1976

机译：NAD在Aspergillus尼日尔的新陈代谢。 II。形成烟酰胺核糖二磷酸二磷酸二磷酸核糖，通过生长曲霉菌丝体菌丝体菌丝菌丝菌丝的新代谢物。

New pathway for the biodegradation of indole in Aspergillus niger.

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