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Results 1 - 8 of 8
EC Number Application Commentary Reference
Show all pathways known for 3.5.4.43Display the reaction diagram Show all sequences 3.5.4.43agriculture degradation of atrazine to non-phytotoxic metabolites 172181
Show all pathways known for 3.5.4.43Display the reaction diagram Show all sequences 3.5.4.43agriculture expression of the atrazine degradation-related gene atzB in coculture treatments (of Arthrobacter sp. DNS10 and Enterobacter sp. P1 is a phosphorus-solubilizing bacterium that releases various kinds of organic acids but lacks the ability to degrade atrazine) is 1.8 times that of the single strain DNS10 culture treatment. This phenomenon is due to metabolite exchange between the two strains. Culturing these two strains together is a biostimulation strategy to enhance the biodegradation of atrazine and the level of available phosphorus in soil by culturing these two strains together 756566
Show all pathways known for 3.5.4.43Display the reaction diagram Show all sequences 3.5.4.43degradation mineralization of low concentrations of atrazine in the groundwater zone at low temperatures is possible by bioremediation treatments. In combined biostimulation treatment using citrate or molasses and augmentation with Pseudomonas citronellolis ADP or Arthrobacter aurescens strain TC1, up to 76% of atrazine is mineralized at 30°C, and the atrazine degradation gene numbers increase up to 10 million copies/g soil -, 737539
Show all pathways known for 3.5.4.43Display the reaction diagram Show all sequences 3.5.4.43degradation mineralization of low concentrations of atrazine in the groundwater zone at low temperatures is possible by bioremediation treatments. In combined biostimulation treatment using citrate or molasses and augmentation with Pseudomonas citronellolis ADP or Arthrobacter aurescens strain TC1, up to 76%of atrazine is mineralized at 30°C, and the atrazine degradation gene numbers increase up to 10 million copies/g soil -, 737539
Show all pathways known for 3.5.4.43Display the reaction diagram Show all sequences 3.5.4.43degradation strain ADP, use of atrazine as sole nitrogen source, but not as sole carbon source. Comparison of degradation products with those from Pseudoaminobacter sp. and Nocardiodes sp. 667881
Show all pathways known for 3.5.4.43Display the reaction diagram Show all sequences 3.5.4.43degradation strain HB-6 is capable of utilizing atrazine and cyanuric acid as a sole nitrogen source for growth and even cleaves the s-triazine ring and mineralizes atrazine. The strain demonstrate a very high efficiency of atrazine biodegradation with a broad optimum pH and temperature ranges and can be enhanced by cooperating with other bacteria -, 739496
Show all pathways known for 3.5.4.43Display the reaction diagram Show all sequences 3.5.4.43degradation use of atrazine as sole nitrogen source and as sole carbon source. Comparison of degradation products with those from Pseudomonas sp. and Nocardiodes sp. 667881
Show all pathways known for 3.5.4.43Display the reaction diagram Show all sequences 3.5.4.43degradation use of atrazine as sole nitrogen source and as sole carbon source. End product of atrazine metabolism is N-ethylammelide. Comparison of degradation products with those from Pseudomonas sp. and Nocardiodes sp. 667881
Results 1 - 8 of 8