Actinomycetes are filamentous, anti

Actinomycetes are filamentous, antibiotics producing bacteria. They are found in freshwater and marine water habitats[1]–[3]. The dominant actinomycetes Micromonospora can be isolated from aquatic habitats such as streams, rivers, lake mud, river sediments, beach sands, sponge and marine sediments[4],[5]. Several novel bioactive compounds were discovered from aquatic actinomycetes, for example rifamycin from Micromonospora[6]; salinosporamide-A, an anticancer metabolite from a Salinispora strain[7]; marinomycins from Marinophilus sp.[8]; abyssomicin-C from Verrucosispora sp. and marinopyrroles from Streptomyces sp[9],[10].

Out of 22 500 biologically active compounds obtained from microbes, 45% are from actinomycetes, 38% from fungi and 17% from other bacteria[11]. Over 5 000 antibiotics have been identified from the culture of Gram positive, Gram negative bacteria and filamentous fungi[12]. Species of Streptomyces, account for more than 70% of the total antibiotic production and Micromonospora was less than one-tenth as many as Streptomyces[13]. Twenty seven actinomycetes were isolated from Mount Everest region soil samples and reported to have antibacterial activity against at least one tested bacteria among the two Gram positive and nine Gram negative bacteria[14]. Narendra Kumar et al. isolated 117 antibiotic producing actinomycetes from non agricultural wasteland alkaline soils and compost rich garden soil in which most of the isolates inhibits Gram negative bacterial growth[15]. Four potential antibacterial actinomycetes were isolated from the aquatic environment[16]. Valli et al. isolated 21 potential actinomycetes from marine environment and reported that all the isolates were promising against at least one tested organisms[17]. Kalyani et al. isolated 20 species from marine soil samples in which three showed significant antimicrobial activity against Staphylococcus aureus and Escherichia coli (E. coli)[18].

Antimicrobial drugs used for prophylactic or therapeutic purposes in human, veterinary and agricultural purposes were favoring the survival and spread of resistant organisms[19]. The appearances of multidrug resistant pathogenic strains caused substantial morbidity and mortality especially among the elderly and immuno-compromised patients. To overcome this situation, there is an interest to improve or discover novel class antibiotics that have different mechanisms of action worldwide[20],[21]. The continuous screening of secondary microbial products produced from potential bacterial taxa was important to discover novel chemicals for the development of new therapeutic agents[22]. Recently, many scientists are searching new antibiotics from different untouched habitats to find out for their productions of antibiotics[23]. In Ethiopia, no significant studies have been conducted so far to isolate and evaluate actinomycetes from different freshwater habitats that could produce useful antibiotics. Therefore, present study is intended to isolate, screen and characterize antibiotic producing actinomycetes from water and sediments of Lake Tana, Ethiopia.