Many studies on phage biology are based on isolation methods that may inadvertently select for narrow-host-range phages. Consequently, broad-host-range phages, whose ecological significance is largely unexplored, are consistently overlooked. To enhance research on such polyvalent phages, we developed two sequential multihost isolation methods and tested both culture-dependent and culture-independent phage libraries for broad infectivity. Lytic phages isolated from activated sludge were capable of interspecies or even interorder infectivity without a significant reduction in the efficiency of plating (0.45 to 1.15). Two polyvalent phages (PX1 of the Podoviridae family and PEf1 of the Siphoviridae family) were characterized in terms of adsorption rate (3.54 × 10?10 to 8.53 × 10?10 ml/min), latent time (40 to 55 min), and burst size (45 to 99 PFU/cell), using different hosts. These phages were enriched with a nonpathogenic host (Pseudomonas putida F1 or Escherichia coli K-12) and subsequently used to infect model problematic bacteria. By using a multiplicity of infection of 10 in bacterial challenge tests, >60% lethality was observed for Pseudomonas aeruginosa relative to uninfected controls. The corresponding lethality for Pseudomonas syringae was ~50%. Overall, this work suggests that polyvalent phages may be readily isolated from the environment by using different sequential hosts, and this approach should facilitate the study of their ecological significance as well as enable novel applications.
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机译:关于噬菌体生物学的许多研究都是基于分离方法,这些分离方法可能会无意中选择狭窄宿主范围的噬菌体。因此,始终忽视了具有广泛生态学意义的广泛宿主噬菌体。为了加强对此类多价噬菌体的研究,我们开发了两种连续的多宿主分离方法,并测试了依赖于培养物和不依赖于培养物的噬菌体文库的广泛感染力。从活性污泥中分离出的裂解噬菌体能够进行种间甚至种间感染,而不会显着降低接种效率(0.45-1.15)。两种多价噬菌体(Podoviridae家族的PX1和Siphoviridae家族的PEf1)的特征在于吸附速率(3.54×10?10至8.53×10?10 ml / min),潜伏时间(40至55分钟)和使用不同的主机的突发大小(45至99 PFU /单元)。这些噬菌体富含非致病性宿主(恶臭假单胞菌F1或大肠杆菌K-12),随后用于感染模型细菌。通过在细菌攻击试验中使用10次感染复数,相对于未感染的对照,铜绿假单胞菌的致死性观察到> 60%。丁香假单胞菌的相应致死率约为50%。总的来说,这项工作表明,通过使用不同的顺序宿主,多价噬菌体可以很容易地与环境隔离,这种方法应有助于研究其生态学意义并实现新的应用。
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