Alves Diana R, Nzakizwanayo Jonathan, Dedi Cinzia, Olympiou Chara, Hanin Aurélie, Kot Witold, Hansen Lars, Lametsch Rene, Gahan Cormac G M, Schellenberger Pascale, Ogilvie Lesley A, Jones Brian V
School of Pharmacy and Biomolecular Sciences, University of Brighton, Brighton, United Kingdom.
Blond McIndoe Research Foundation, Queen Victoria Hospital, East Grinstead, United Kingdom.
Front Microbiol. 2019 Aug 6;10:1783. doi: 10.3389/fmicb.2019.01783. eCollection 2019.
often complicates the care of catheterized patients through the formation of crystalline biofilms which block urine flow. Bacteriophage therapy has been highlighted as a promising approach to control this problem, but relatively few phages infecting have been characterized. Here we characterize five phages capable of infecting , including those shown to reduce biofilm formation, and provide insights regarding the wider ecological and evolutionary relationships of these phages. Transmission electron microscopy (TEM) imaging of phages vB_PmiP_RS1pmA, vB_PmiP_RS1pmB, vB_PmiP_RS3pmA, and vB_PmiP_RS8pmA showed that all share morphologies characteristic of the family. The genome sequences of vB_PmiP_RS1pmA, vB_PmiP_RS1pmB, and vB_PmiP_RS3pmA showed these are species of the same phage differing only by point mutations, and are closely related to vB_PmiP_RS8pmA. Podophages characterized in this study were also found to share similarity in genome architecture and composition to other previously described podophages (PM16 and PM75). In contrast, vB_PimP_RS51pmB showed morphology characteristic of the family, with no notable similarity to other phage genomes examined. Ecogenomic profiling of all phages revealed no association with human urinary tract viromes, but sequences similar to vB_PimP_RS51pmB were found within human gut, and human oral microbiomes. Investigation of wider host-phage evolutionary relationships through tetranucleotide profiling of phage genomes and bacterial chromosomes, indicated vB_PimP_RS51pmB has a relatively recent association with and other non- members of the family. Subsequent host range assays confirmed vB_PimP_RS51pmB can infect .
通常会通过形成阻塞尿液流动的结晶生物膜使导尿患者的护理变得复杂。噬菌体疗法已被视为控制这一问题的一种有前景的方法,但相对较少的感染噬菌体得到了表征。在这里,我们表征了五种能够感染的噬菌体,包括那些被证明可减少生物膜形成的噬菌体,并提供了有关这些噬菌体更广泛的生态和进化关系的见解。噬菌体vB_PmiP_RS1pmA、vB_PmiP_RS1pmB、vB_PmiP_RS3pmA和vB_PmiP_RS8pmA的透射电子显微镜(TEM)成像显示,它们都具有该噬菌体家族的形态特征。vB_PmiP_RS1pmA、vB_PmiP_RS1pmB和vB_PmiP_RS3pmA的基因组序列表明,这些是同一噬菌体的不同种,仅因点突变而有所不同,并且与vB_PmiP_RS8pmA密切相关。在本研究中表征的短尾噬菌体在基因组结构和组成上也与其他先前描述的短尾噬菌体(PM16和PM75)具有相似性。相比之下,vB_PimP_RS51pmB显示出该噬菌体家族的形态特征,与所检查的其他噬菌体基因组没有明显相似性。对所有噬菌体的生态基因组分析表明,它们与人类尿道病毒群落没有关联,但在人类肠道和口腔微生物群落中发现了与vB_PimP_RS51pmB相似的序列。通过对噬菌体基因组和细菌染色体的四核苷酸分析来研究更广泛的宿主 - 噬菌体进化关系,表明vB_PimP_RS51pmB与该噬菌体家族的其他非成员有相对较新的关联。随后的宿主范围测定证实vB_PimP_RS51pmB可以感染。
