Viruses Infecting a Freshwater Filamentous Cyanobacterium ( Nostoc sp.) Encode a Functional CRISPR Array and a Proteobacterial DNA Polymerase B

Here we present the first genomic characterization of viruses infecting Nostoc , a genus of ecologically important cyanobacteria that are widespread in freshwater. Cyanophages A-1 and N-1 were isolated in the 1970s and infect Nostoc sp. strain PCC 7210 but remained genomically uncharacterized. Their...

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Vydané v:mBio Ročník 7; číslo 3
Hlavní autori: Chénard, Caroline, Wirth, Jennifer F., Suttle, Curtis A.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: United States American Society for Microbiology 14.06.2016
Predmet:
Bacteriophages - enzymology
Bacteriophages - genetics
Bacteriophages - isolation & purification
Clustered Regularly Interspaced Short Palindromic Repeats
CRISPR
Cyanobacteria
Deoxyribonucleic acid
DNA
DNA polymerase
DNA viruses
DNA-directed DNA polymerase
DNA-Directed DNA Polymerase - genetics
Evolution, Molecular
Fresh Water - microbiology
Gene Transfer, Horizontal
Genes
Genetic engineering
Genomes
Genomic analysis
Genomics
Infections
Kinases
Nostoc
Nostoc - virology
Nucleotide sequence
Open reading frames
Phages
Phylogeny
Plasmids
Proteins
Recombination, Genetic
Sequence Homology
Transfer RNA
Viral Proteins - genetics
ISSN:2161-2129, 2150-7511, 2150-7511
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Shrnutí:Here we present the first genomic characterization of viruses infecting Nostoc , a genus of ecologically important cyanobacteria that are widespread in freshwater. Cyanophages A-1 and N-1 were isolated in the 1970s and infect Nostoc sp. strain PCC 7210 but remained genomically uncharacterized. Their 68,304- and 64,960-bp genomes are strikingly different from those of other sequenced cyanophages. Many putative genes that code for proteins with known functions are similar to those found in filamentous cyanobacteria, showing a long evolutionary history in their host. Cyanophage N-1 encodes a CRISPR array that is transcribed during infection and is similar to the DR5 family of CRISPRs commonly found in cyanobacteria. The presence of a host-related CRISPR array in a cyanophage suggests that the phage can transfer the CRISPR among related cyanobacteria and thereby provide resistance to infection with competing phages. Both viruses also encode a distinct DNA polymerase B that is closely related to those found in plasmids of Cyanothece sp. strain PCC 7424, Nostoc sp. strain PCC 7120, and Anabaena variabilis ATCC 29413. These polymerases form a distinct evolutionary group that is more closely related to DNA polymerases of proteobacteria than to those of other viruses. This suggests that the polymerase was acquired from a proteobacterium by an ancestral virus and transferred to the cyanobacterial plasmid. Many other open reading frames are similar to a prophage-like element in the genome of Nostoc sp. strain PCC 7524. The Nostoc cyanophages reveal a history of gene transfers between filamentous cyanobacteria and their viruses that have helped to forge the evolutionary trajectory of this previously unrecognized group of phages. IMPORTANCE Filamentous cyanobacteria belonging to the genus Nostoc are widespread and ecologically important in freshwater, yet little is known about the genomic content of their viruses. Here we report the first genomic analysis of cyanophages infecting filamentous freshwater cyanobacteria, revealing that their gene content is unlike that of other cyanophages. In addition to sharing many gene homologues with freshwater cyanobacteria, cyanophage N-1 encodes a CRISPR array and expresses it upon infection. Also, both viruses contain a DNA polymerase B-encoding gene with high similarity to genes found in proteobacterial plasmids of filamentous cyanobacteria. The observation that phages can acquire CRISPRs from their hosts suggests that phages can also move them among hosts, thereby conferring resistance to competing phages. The presence in these cyanophages of CRISPR and DNA polymerase B sequences, as well as a suite of other host-related genes, illustrates the long and complex evolutionary history of these viruses and their hosts. Filamentous cyanobacteria belonging to the genus Nostoc are widespread and ecologically important in freshwater, yet little is known about the genomic content of their viruses. Here we report the first genomic analysis of cyanophages infecting filamentous freshwater cyanobacteria, revealing that their gene content is unlike that of other cyanophages. In addition to sharing many gene homologues with freshwater cyanobacteria, cyanophage N-1 encodes a CRISPR array and expresses it upon infection. Also, both viruses contain a DNA polymerase B-encoding gene with high similarity to genes found in proteobacterial plasmids of filamentous cyanobacteria. The observation that phages can acquire CRISPRs from their hosts suggests that phages can also move them among hosts, thereby conferring resistance to competing phages. The presence in these cyanophages of CRISPR and DNA polymerase B sequences, as well as a suite of other host-related genes, illustrates the long and complex evolutionary history of these viruses and their hosts.
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This article is a direct contribution from a Fellow of the American Academy of Microbiology. External solicited reviewers: Graham Hatfull, University of Pittsburgh; Martha Clokie, University of Leicester.
Present address: Caroline Chénard, Singapore Centre on Environmental Life Sciences Engineering (SCELSE), Nanyang Technological University, Singapore; Jennifer F. Wirth, Thermal Biology Institute, Montana State University, Bozeman, Montana, USA.
Editor Roger Hendrix, University of Pittsburgh
ISSN:2161-2129
2150-7511
2150-7511
DOI:10.1128/mBio.00667-16