Arya Ridhima, Mishra Navnit Kumar, Sharma Anil K
Department of Biotechnology, Maharishi Markandeshwar University, Mullana, (Ambala), Haryana, 133207, India.
3 Biotech. 2016 Dec;6(2):246. doi: 10.1007/s13205-016-0562-z. Epub 2016 Nov 16.
Use of herbicides, in particular sulfosulfuron, at more than recommended doses has raised major concerns about the health hazards for animals and humans. In the present study, isolation of sulfosulfuron-degrading Brevibacillus borstelensis and Streptomyces albogriseolus from the field soils in the northwestern region of India was carried out where the use of sulfosulfuron is predominant, and further assessed for their potential to degrade sulfosulfuron individually and together in a consortium form under lab conditions. Concentration of sulfosulfuron was reduced from 10 to 7.72 µg/ml in 12 h to 5.13 µg/ml in 20 h by B. borstelensis and the metabolites detected by LCMS-MS were aminopyrimidine and a rearranged amine in 12 and 20 h of growth. Similarly, S. albogriseolus reduced the concentration of sulfosulfuron from 10 to 6.74 µg/ml in 12 h to 6.62 µg/ml in 20 h with aminopyrimidine and a rearranged amine as metabolites. B. borstelensis and S. albogriseolus together also reduced the concentration of sulfosulfuron from 10 µg/ml in initial hour to 8.34 µg/ml in 12 h to 6.66 µg/ml in 20 h. Hence, B. borstelensis and S. albogriseolus provide a safer, inexpensive and effective way to bio-remediate the harmful and toxic sulfosulfuron from the environment if further explored at a larger field scale in near future.
以高于推荐剂量使用除草剂,尤其是甲磺隆,已引发了对动物和人类健康危害的重大担忧。在本研究中,从印度西北部使用甲磺隆较为普遍的田间土壤中分离出了降解甲磺隆的博斯腾短芽孢杆菌和浅灰链霉菌,并在实验室条件下进一步评估了它们单独以及以混合菌群形式共同降解甲磺隆的潜力。博斯腾短芽孢杆菌在12小时内将甲磺隆浓度从10微克/毫升降至7.72微克/毫升,在20小时内降至5.13微克/毫升,通过液相色谱-质谱联用仪检测到的代谢产物在生长12小时和20小时时分别为氨基嘧啶和重排胺。同样,浅灰链霉菌在12小时内将甲磺隆浓度从10微克/毫升降至6.74微克/毫升,在20小时内降至6.62微克/毫升,代谢产物为氨基嘧啶和重排胺。博斯腾短芽孢杆菌和浅灰链霉菌共同作用时,也将甲磺隆浓度从初始的每小时10微克/毫升在12小时内降至8.34微克/毫升,在20小时内降至6.66微克/毫升。因此,如果在不久的将来在更大的田间规模上进一步探索,博斯腾短芽孢杆菌和浅灰链霉菌为从环境中生物修复有害且有毒的甲磺隆提供了一种更安全、廉价且有效的方法。
