Isolation and Screening of Antibiotics Producing Streptomyces spp from the Soil Collected around the Root of Alnus nepalensis from Godawari

Nepal Journal of Biotechnology Pub Date : 2019-01-15 DOI:10.3126/NJB.V6I1.22337

A. Baniya, Sushma Singh, Minu Singh, Pragya Nepal, M. Adhikari, S. Aryal, A. Adhikari

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引用次数: 10

Abstract

Actinomycetes are considered as the most invaluable prokaryotes whose genome mining show a great number of putative secondary metabolite biosynthesis pathways as well as gene clusters ranging from 20 to 50 per genome. The genus Streptomyces has been explored for its ability to produce 60% antibiotics worldwide. Alnus nepalensis (Alder) has been found to harbor diverse Eubacteria in its rhizosphere. To evaluate the antibiotic production potential from Actinomycetes, we collected soil samples from rhizosphere (5-7 cm deep) of Alder tree. Primary screening was done by cross-streak method against Multidrug Resistant (MDR) such as Methicillin resistant Staphylococcus auereus (MRSA), Vancomycin resistant Enterococcus feacalis (VRE), Imepenem resistant Acinetobacterbaumannii, Vancomycin resistant Klebsiella pneumonia and Imepenem resistant E. coli as well as Non-MDRs (E. coli, Bacillus subtilis, Klebsiella pneumoniae, S. aeureu and Enterococcus feacalis). Extraction of antibiotics was done using rota-vapour from extract obtained by solid-substrate fermentation technique followed by solvent extraction. Secondary screening was done using well diffusion assay against MDRs. Among total of 40 isolates of Actinomycetes recovered, 14 showed remarkable zone of inhibition (ZOI) to various MDRs. NASA 303 showed 26 mm of ZOI against VRE, NASA 101 had ZOI of 34 mm against MRSA, NASA 319 had 33.7 mm ZOI against Imepenem resistant E. coli, NASA 306 had 36 mm of ZOI against Vancomycin resistant Klebsiella pneumoniae, and NASA 108 showed ZOI of 29.6 mm against Imepenem resistant E. faecalis. This investigation revealed that the Actinomycetes found in Rhizosphere of Alder tree had MDR killing potent antibiotics, which needs to be further explored.

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戈达瓦里尼泊尔桤木根周土壤产抗生素链霉菌的分离与筛选

放线菌被认为是最有价值的原核生物，其基因组挖掘显示出大量假定的次级代谢物生物合成途径以及每个基因组20至50个基因簇。链霉菌属因其在世界范围内生产60%的抗生素的能力而被探索。尼泊尔桤木(Alnus nepalensis，桤木)的根际中含有多种真菌体。为了评估放线菌生产抗生素的潜力，我们采集了桤木根际(5-7 cm深)土壤样品。对耐甲氧西林金黄色葡萄球菌(MRSA)、耐万古霉素粪肠球菌(VRE)、耐伊米培南不动鲍曼杆菌、耐万古霉素肺炎克雷伯菌和耐伊米培南大肠杆菌等多药耐药(MDR)以及非耐多药耐药(大肠杆菌、枯草芽孢杆菌、肺炎克雷伯菌、金黄色葡萄球菌和粪肠球菌)进行初步筛选。采用固体底物发酵提取液的旋转蒸汽法提取抗生素，再进行溶剂萃取。采用孔扩散法对mdr进行二次筛选。40株放线菌中，有14株对多种mdr均有显著的抑制区(ZOI)。NASA 303对VRE的ZOI为26 mm, NASA 101对MRSA的ZOI为34 mm, NASA 319对耐伊米培南大肠杆菌的ZOI为33.7 mm, NASA 306对耐万古霉素肺炎克雷伯菌的ZOI为36 mm, NASA 108对耐伊米培南粪肠杆菌的ZOI为29.6 mm。本研究表明，桤木根际中发现的放线菌具有耐多药杀伤强效抗生素，有待进一步探索。

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来源期刊

Nepal Journal of Biotechnology

自引率

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审稿时长

20 weeks