A new family of globally distributed lytic roseophages with unusual deoxythymidine to deoxyuridine substitution

Branko Rihtman*, Richard J. Puxty, Alexia Hapeshi, Yan-Jiun Lee, Yuanchao Zhan, Slawomir Michniewski, Nicholas R. Waterfield, Feng Chen, Peter Weigele, Andrew D. Millard, David J. Scanlan, Yin Chen*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

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Abstract

Marine bacterial viruses (bacteriophages) are abundant biological entities that are vital for shaping microbial diversity, impacting marine ecosystem function, and driving host evolution.1, 2, 3 The marine roseobacter clade (MRC) is a ubiquitous group of heterotrophic bacteria4,5 that are important in the elemental cycling of various nitrogen, sulfur, carbon, and phosphorus compounds.6, 7, 8, 9, 10 Bacteriophages infecting MRC (roseophages) have thus attracted much attention and more than 30 roseophages have been isolated,11, 12, 13 the majority of which belong to the N4-like group (Podoviridae family) or the Chi-like group (Siphoviridae family), although ssDNA-containing roseophages are also known.14 In our attempts to isolate lytic roseophages, we obtained two new phages (DSS3_VP1 and DSS3_PM1) infecting the model MRC strain Ruegeria pomeroyi DSS-3. Here, we show that not only do these phages have unusual substitution of deoxythymidine with deoxyuridine (dU) in their DNA, but they are also phylogenetically distinct from any currently known double-stranded DNA bacteriophages, supporting the establishment of a novel family (“Naomiviridae”). These dU-containing phages possess DNA that is resistant to the commonly used library preparation method for metagenome sequencing, which may have caused significant underestimation of their presence in the environment. Nevertheless, our analysis of Tara Ocean metagenome datasets suggests that these unusual bacteriophages are of global importance and more diverse than other well-known bacteriophages, e.g., the Podoviridae in the oceans, pointing to an overlooked role for these novel phages in the environment.
Original languageEnglish
Pages (from-to)3199-3206.e4
Number of pages13
JournalCurrent Biology
Volume31
Issue number14
Early online date24 May 2021
DOIs
Publication statusPublished - Jul 2021

Bibliographical note

Acknowledgments:
This project has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program (grant agreement no. 726116). We also acknowledge the Midlands Regional Cryo-EM Facility hosted at the Warwick Advanced Bioimaging Research Technology Platform for use of the JEOL 2100Plus, and the MRC CLIMB Infrastructure for bioinformatic analysis (MR/L015080/1). We thank Prof. Jed Fuhrman for stimulating discussions and suggestions for genome sequencing and MicrobesNG for Nextera library preparation and sequencing.

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