A New Enterobacter cloacae Bacteriophage EC151 Encodes the Deazaguanine DNA Modification Pathway and Represents a New Genus within the Siphoviridae Family

A novel Enterobacter cloacae phage, EC151, was isolated and characterized. Electron microscopy revealed that EC151 has a siphovirus-like virion morphology. The EC151 nucleotide sequence shows limited similarity to other phage genomes deposited in the NCBI GenBank database. The size of the EC151 geno...

Descripción completa

Detalles Bibliográficos
Autores principales: Morozova, Vera, Jdeed, Ghadeer, Kozlova, Yuliya, Babkin, Igor, Tikunov, Artem, Tikunova, Nina
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8310023/
https://www.ncbi.nlm.nih.gov/pubmed/34372577
http://dx.doi.org/10.3390/v13071372
_version_ 1783728660929314816
author Morozova, Vera
Jdeed, Ghadeer
Kozlova, Yuliya
Babkin, Igor
Tikunov, Artem
Tikunova, Nina
author_facet Morozova, Vera
Jdeed, Ghadeer
Kozlova, Yuliya
Babkin, Igor
Tikunov, Artem
Tikunova, Nina
author_sort Morozova, Vera
collection PubMed
description A novel Enterobacter cloacae phage, EC151, was isolated and characterized. Electron microscopy revealed that EC151 has a siphovirus-like virion morphology. The EC151 nucleotide sequence shows limited similarity to other phage genomes deposited in the NCBI GenBank database. The size of the EC151 genome is 60,753 bp and contains 58 putative genes. Thirty-nine of them encode proteins of predicted function, 18 are defined as hypothetical proteins, and one ORF identifies as the tRNA-Ser-GCT-encoding gene. Six ORFs were predicted to be members of the deazaguanine DNA modification pathway, including the preQ(0) transporter. Comparative proteomic phylogenetic analysis revealed that phage EC151 represents a distinct branch within a group of sequences containing clades formed by members of the Seuratvirus, Nonagvirus, and Vidquintavirus genera. In addition, the EC151 genome showed gene synteny typical of the Seuratvirus, Nonagvirus, and Nipunavirus phages. The average genetic distances of EC151/Seuratvirus, EC151/Nonagvirus, and EC151/Vidquintavirus are approximately equal to those between the Seuratvirus, Nonagvirus, and Vidquintavirus genera (~0.7 substitutions per site). Therefore, EC151 may represent a novel genus within the Siphoviridae family. The origin of the deazaguanine DNA modification pathway in the EC151 genome can be traced to Escherichia phages from the Seuratvirus genus.
format Online
Article
Text
id pubmed-8310023
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-83100232021-07-25 A New Enterobacter cloacae Bacteriophage EC151 Encodes the Deazaguanine DNA Modification Pathway and Represents a New Genus within the Siphoviridae Family Morozova, Vera Jdeed, Ghadeer Kozlova, Yuliya Babkin, Igor Tikunov, Artem Tikunova, Nina Viruses Article A novel Enterobacter cloacae phage, EC151, was isolated and characterized. Electron microscopy revealed that EC151 has a siphovirus-like virion morphology. The EC151 nucleotide sequence shows limited similarity to other phage genomes deposited in the NCBI GenBank database. The size of the EC151 genome is 60,753 bp and contains 58 putative genes. Thirty-nine of them encode proteins of predicted function, 18 are defined as hypothetical proteins, and one ORF identifies as the tRNA-Ser-GCT-encoding gene. Six ORFs were predicted to be members of the deazaguanine DNA modification pathway, including the preQ(0) transporter. Comparative proteomic phylogenetic analysis revealed that phage EC151 represents a distinct branch within a group of sequences containing clades formed by members of the Seuratvirus, Nonagvirus, and Vidquintavirus genera. In addition, the EC151 genome showed gene synteny typical of the Seuratvirus, Nonagvirus, and Nipunavirus phages. The average genetic distances of EC151/Seuratvirus, EC151/Nonagvirus, and EC151/Vidquintavirus are approximately equal to those between the Seuratvirus, Nonagvirus, and Vidquintavirus genera (~0.7 substitutions per site). Therefore, EC151 may represent a novel genus within the Siphoviridae family. The origin of the deazaguanine DNA modification pathway in the EC151 genome can be traced to Escherichia phages from the Seuratvirus genus. MDPI 2021-07-15 /pmc/articles/PMC8310023/ /pubmed/34372577 http://dx.doi.org/10.3390/v13071372 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Morozova, Vera
Jdeed, Ghadeer
Kozlova, Yuliya
Babkin, Igor
Tikunov, Artem
Tikunova, Nina
A New Enterobacter cloacae Bacteriophage EC151 Encodes the Deazaguanine DNA Modification Pathway and Represents a New Genus within the Siphoviridae Family
title A New Enterobacter cloacae Bacteriophage EC151 Encodes the Deazaguanine DNA Modification Pathway and Represents a New Genus within the Siphoviridae Family
title_full A New Enterobacter cloacae Bacteriophage EC151 Encodes the Deazaguanine DNA Modification Pathway and Represents a New Genus within the Siphoviridae Family
title_fullStr A New Enterobacter cloacae Bacteriophage EC151 Encodes the Deazaguanine DNA Modification Pathway and Represents a New Genus within the Siphoviridae Family
title_full_unstemmed A New Enterobacter cloacae Bacteriophage EC151 Encodes the Deazaguanine DNA Modification Pathway and Represents a New Genus within the Siphoviridae Family
title_short A New Enterobacter cloacae Bacteriophage EC151 Encodes the Deazaguanine DNA Modification Pathway and Represents a New Genus within the Siphoviridae Family
title_sort new enterobacter cloacae bacteriophage ec151 encodes the deazaguanine dna modification pathway and represents a new genus within the siphoviridae family
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8310023/
https://www.ncbi.nlm.nih.gov/pubmed/34372577
http://dx.doi.org/10.3390/v13071372
work_keys_str_mv AT morozovavera anewenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily
AT jdeedghadeer anewenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily
AT kozlovayuliya anewenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily
AT babkinigor anewenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily
AT tikunovartem anewenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily
AT tikunovanina anewenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily
AT morozovavera newenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily
AT jdeedghadeer newenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily
AT kozlovayuliya newenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily
AT babkinigor newenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily
AT tikunovartem newenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily
AT tikunovanina newenterobactercloacaebacteriophageec151encodesthedeazaguaninednamodificationpathwayandrepresentsanewgenuswithinthesiphoviridaefamily

Ejemplares similares