BMC Genomics | |
Staphylococci phages display vast genomic diversity and evolutionary relationships | |
Luís D. R. Melo1  Joana Azeredo1  Marta Sampaio1  Hugo Oliveira1  Oscar Dias1  Welkin H. Pope2  Graham F. Hatfull2  | |
[1] 0000 0001 2159 175X, grid.10328.38, CEB – Centre of Biological Engineering, University of Minho, Braga, Portugal;0000 0004 1936 9000, grid.21925.3d, Department of Biological Sciences, University of Pittsburgh, Pittsburgh, PA, USA; | |
关键词: Staphylococcus; Bacteriophages; Genomes; Clusters; Phams; Endolysin; | |
DOI : 10.1186/s12864-019-5647-8 | |
来源: publisher | |
【 摘 要 】
BackgroundBacteriophages are the most abundant and diverse entities in the biosphere, and this diversity is driven by constant predator–prey evolutionary dynamics and horizontal gene transfer. Phage genome sequences are under-sampled and therefore present an untapped and uncharacterized source of genetic diversity, typically characterized by highly mosaic genomes and no universal genes. To better understand the diversity and relationships among phages infecting human pathogens, we have analysed the complete genome sequences of 205 phages of Staphylococcus sp.ResultsThese are predicted to encode 20,579 proteins, which can be sorted into 2139 phamilies (phams) of related sequences; 745 of these are orphams and possess only a single gene. Based on shared gene content, these phages were grouped into four clusters (A, B, C and D), 27 subclusters (A1-A2, B1-B17, C1-C6 and D1-D2) and one singleton. However, the genomes have mosaic architectures and individual genes with common ancestors are positioned in distinct genomic contexts in different clusters. The staphylococcal Cluster B siphoviridae are predicted to be temperate, and the integration cassettes are often closely-linked to genes implicated in bacterial virulence determinants. There are four unusual endolysin organization strategies found in Staphylococcus phage genomes, with endolysins predicted to be encoded as single genes, two genes spliced, two genes adjacent and as a single gene with inter-lytic-domain secondary translational start site. Comparison of the endolysins reveals multi-domain modularity, with conservation of the SH3 cell wall binding domain.ConclusionsThis study provides a high-resolution view of staphylococcal viral genetic diversity, and insights into their gene flux patterns within and across different phage groups (cluster and subclusters) providing insights into their evolution.
【 授权许可】
CC BY
【 预 览 】
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RO202004230060434ZK.pdf | 1513KB | download |