Seven bacterial strains isolated from a glyphosate-exposed orange plantation site were exposed to 1 mM N-(phosphonomethyl)glycine supplied as a phosphorus source. While some exhibited good biodegradation profiles, the strain 6 P, identified as Bacillus cereus, was the only strain capable of releasing inorganic phosphate to the culture supernatant, while accumulating polyphosphate intracellularly along the experimentation time. The composition and purity of the intracellular polyphosphate accumulated by the strain 6 P were confirmed by FTIR analysis. To date, the biological conversion of glyphosate into polyphosphate has not been reported. However, given the importance of this biopolymer in the survival of microorganisms, it can be expected that this process could represent an important ecological advantage for the adaptation of this strain to an ecological niche exposed to this herbicide. The polyphosphate production yield was calculated as 4 mg l−1, while the glyphosate biodegradation kinetic constant was calculated on 0.003 h−1 using the modified Hockey–Stick first-order kinetic model, with a half-life of 279 h. Our results suggest that B. cereus 6 P is a potential candidate for the generation of an innovative biotechnological process to produce polyphosphate through the biodegradation of the herbicide glyphosate.
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机译:从暴露于草甘膦的橙色种植园中分离出的七个细菌菌株暴露于作为磷源的1 mM N-(膦酰基甲基)甘氨酸中。尽管一些菌株表现出良好的生物降解特性,但鉴定为蜡状芽孢杆菌的6 P菌株是唯一能够将无机磷酸盐释放到培养上清液中,同时沿实验时间在细胞内积累多磷酸盐的菌株。通过FTIR分析确认了菌株6 P积聚的细胞内多磷酸盐的组成和纯度。迄今为止,尚未报道草甘膦向多磷酸盐的生物转化。但是,鉴于这种生物聚合物在微生物生存中的重要性,可以预期,该过程可以代表重要的生态优势,以使该菌株适应暴露于该除草剂的生态位。使用改进的曲棍球–Stick一级动力学,计算出多磷酸盐的产量为4 mg l -1 ,而草甘膦的生物降解动力学常数为0.003 h -1 。型号,半衰期为279 h。我们的结果表明,蜡状芽孢杆菌6 P是通过生物降解除草剂草甘膦来生产多磷酸盐的创新生物技术过程的潜在候选者。
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