Back to Search Start Over

Phylogenomics of five Pseudanabaena cyanophages and evolutionary traces of horizontal gene transfer

Authors :
Jie Zhu
Feng Yang
Kang Du
Zi-Lu Wei
Qing-Fa Wu
Yuxing Chen
Wei-Fang Li
Qiong Li
Cong-Zhao Zhou
Source :
Environmental Microbiome, Vol 18, Iss 1, Pp 1-15 (2023)
Publication Year :
2023
Publisher :
BMC, 2023.

Abstract

Abstract Background Along with the fast development and urbanization in developing countries, the waterbodies aside the growing cities become heavily polluted and highly eutrophic, thus leading to the seasonal outbreak of cyanobacterial bloom. Systematic isolation and characterization of freshwater cyanophages might provide a biological solution to control the awful blooms. However, genomic sequences and related investigations on the freshwater cyanophages remain very limited to date. Results Following our recently reported five cyanophages Pam1~Pam5 from Lake Chaohu in China, here we isolated another five cyanophages, termed Pan1~Pan5, which infect the cyanobacterium Pseudanabaena sp. Chao 1811. Whole-genome sequencing showed that they all contain a double-stranded DNA genome of 37.2 to 72.0 kb in length, with less than half of the putative open reading frames annotated with known functions. Remarkably, the siphophage Pan1 encodes an auxiliary metabolic gene phoH and constitutes, together with the host, a complete queuosine modification pathway. Proteomic analyses revealed that although Pan1~Pan5 are distinct from each other in evolution, Pan1 and Pan3 are somewhat similar to our previously identified cyanophages Pam3 and Pam1 at the genomic level, respectively. Moreover, phylogenetic analyses suggested that Pan1 resembles the α-proteobacterial phage vB_DshS-R5C, revealing direct evidence for phage-mediated horizontal gene transfer between cyanobacteria and α-proteobacteria. Conclusion In addition to the previous reports of Pam1~Pam5, the present findings on Pan1~Pan5 largely enrich the library of reference freshwater cyanophages. The abundant genomic information provides a pool to identify novel genes and proteins of unknown function. Moreover, we found for the first time the evolutionary traces in the cyanophage that horizontal gene transfer might occur at the level of not only inter-species, but even inter-phylum. It indicates that the bacteriophage or cyanophage could be developed as a powerful tool for gene manipulation among various species or phyla.

Details

Language :
English
ISSN :
25246372
Volume :
18
Issue :
1
Database :
Directory of Open Access Journals
Journal :
Environmental Microbiome
Publication Type :
Academic Journal
Accession number :
edsdoj.6bbcaa5725d4d1b95df4ee3154fe804
Document Type :
article
Full Text :
https://doi.org/10.1186/s40793-023-00461-5