Characterization of the morphology and genome of an Escherichia coli podovirus

Yuhui Hua; Xiaoping An; Guangqian Pei; Shasha Li; Wei Wang; Xiaomeng Xu; Huahao Fan; Yong Huang; Zhiyi Zhang; Zhiqiang Mi; Jiankui Chen; Jingyun Li; Feixiong Zhang; Yigang Tong

doi:10.1007/s00705-014-2189-x

Characterization of the morphology and genome of an Escherichia coli podovirus

Yuhui Hua, Xiaoping An, Guangqian Pei, Shasha Li, Wei Wang, Xiaomeng Xu, Huahao Fan, Yong Huang, Zhiyi Zhang, Zhiqiang Mi, Jiankui Chen, Jingyun Li, Feixiong Zhang, Yigang Tong

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

15 Citas (Scopus)

Resumen

Escherichia coli is an important opportunistic pathogen. It can cause sepsis and severe infection. The application of lytic bacteriophages to treat infectious diseases is an alternative to antibiotics. A lytic Escherichia coli phage, designated IME-EC2, was isolated from hospital sewage. Transmission electron microscopy revealed that IME-EC2 to be a member of the family Podoviridae. It had a 60-nm head and a 15-nm tail. Here, we present the complete genome sequence of this phage, which consists of 41,510 bp with an overall G+C content of 59.2 %. A total of 60 coding sequences (CDS) were identified, and the phage genome does not contain any tRNA genes. Forty percent of the unknown CDSs are unique to IME-EC2. This phage does not show significant similarity to other phages at the DNA level, which suggests that IME-EC2 could be a novel phage. One of the unique features identified in the IME-EC2 genome was a gene coding for a putative colanic-acid-degrading protein, which could allow the phage to degrade bacterial capsule and biofilms. Another unique feature is that IME-EC2 does not contain a terminase small subunit, which suggests that this phage may have a unique packaging mechanism. The present work provides novel information on phages and shows that this lytic phage or its products could be exploited to destroy bacterial biofilms and pathogenic E. coli.

Idioma original	English
Páginas (desde-hasta)	3249-3256
Número de páginas	8
Publicación	Archives of Virology
Volumen	159
N.º	12
DOI	https://doi.org/10.1007/s00705-014-2189-x
Estado	Published - dic. 2014
Publicado de forma externa	Sí

Nota bibliográfica

Funding Information:
This research was supported by a grant from the National Hi-Tech Research and Development (863) Program of China (No. 2012AA022003 and No. 2014AA021402), China Mega-Project on Major Drug Development (No. 2011ZX09401-023), China Mega-Project on Infectious Disease Prevention (No. 2013ZX10004-605, No. 2013ZX10004-607, No. 2013ZX10004-217, and No. 2011ZX10004-001) and State Key Laboratory of Pathogen and BioSecurity Program (No. SKLPBS1113).

Publisher Copyright:
© 2014, Springer-Verlag Wien.

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Virology

PubMed: MeSH publication types

Journal Article
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title = "Characterization of the morphology and genome of an Escherichia coli podovirus",

abstract = "Escherichia coli is an important opportunistic pathogen. It can cause sepsis and severe infection. The application of lytic bacteriophages to treat infectious diseases is an alternative to antibiotics. A lytic Escherichia coli phage, designated IME-EC2, was isolated from hospital sewage. Transmission electron microscopy revealed that IME-EC2 to be a member of the family Podoviridae. It had a 60-nm head and a 15-nm tail. Here, we present the complete genome sequence of this phage, which consists of 41,510 bp with an overall G+C content of 59.2 %. A total of 60 coding sequences (CDS) were identified, and the phage genome does not contain any tRNA genes. Forty percent of the unknown CDSs are unique to IME-EC2. This phage does not show significant similarity to other phages at the DNA level, which suggests that IME-EC2 could be a novel phage. One of the unique features identified in the IME-EC2 genome was a gene coding for a putative colanic-acid-degrading protein, which could allow the phage to degrade bacterial capsule and biofilms. Another unique feature is that IME-EC2 does not contain a terminase small subunit, which suggests that this phage may have a unique packaging mechanism. The present work provides novel information on phages and shows that this lytic phage or its products could be exploited to destroy bacterial biofilms and pathogenic E. coli.",

author = "Yuhui Hua and Xiaoping An and Guangqian Pei and Shasha Li and Wei Wang and Xiaomeng Xu and Huahao Fan and Yong Huang and Zhiyi Zhang and Zhiqiang Mi and Jiankui Chen and Jingyun Li and Feixiong Zhang and Yigang Tong",

note = "Funding Information: This research was supported by a grant from the National Hi-Tech Research and Development (863) Program of China (No. 2012AA022003 and No. 2014AA021402), China Mega-Project on Major Drug Development (No. 2011ZX09401-023), China Mega-Project on Infectious Disease Prevention (No. 2013ZX10004-605, No. 2013ZX10004-607, No. 2013ZX10004-217, and No. 2011ZX10004-001) and State Key Laboratory of Pathogen and BioSecurity Program (No. SKLPBS1113). Publisher Copyright: {\textcopyright} 2014, Springer-Verlag Wien.",

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T1 - Characterization of the morphology and genome of an Escherichia coli podovirus

AU - Hua, Yuhui

AU - An, Xiaoping

AU - Pei, Guangqian

AU - Li, Shasha

AU - Wang, Wei

AU - Xu, Xiaomeng

AU - Fan, Huahao

AU - Huang, Yong

AU - Zhang, Zhiyi

AU - Mi, Zhiqiang

AU - Chen, Jiankui

AU - Li, Jingyun

AU - Zhang, Feixiong

AU - Tong, Yigang

N1 - Funding Information: This research was supported by a grant from the National Hi-Tech Research and Development (863) Program of China (No. 2012AA022003 and No. 2014AA021402), China Mega-Project on Major Drug Development (No. 2011ZX09401-023), China Mega-Project on Infectious Disease Prevention (No. 2013ZX10004-605, No. 2013ZX10004-607, No. 2013ZX10004-217, and No. 2011ZX10004-001) and State Key Laboratory of Pathogen and BioSecurity Program (No. SKLPBS1113). Publisher Copyright: © 2014, Springer-Verlag Wien.

PY - 2014/12

Y1 - 2014/12

N2 - Escherichia coli is an important opportunistic pathogen. It can cause sepsis and severe infection. The application of lytic bacteriophages to treat infectious diseases is an alternative to antibiotics. A lytic Escherichia coli phage, designated IME-EC2, was isolated from hospital sewage. Transmission electron microscopy revealed that IME-EC2 to be a member of the family Podoviridae. It had a 60-nm head and a 15-nm tail. Here, we present the complete genome sequence of this phage, which consists of 41,510 bp with an overall G+C content of 59.2 %. A total of 60 coding sequences (CDS) were identified, and the phage genome does not contain any tRNA genes. Forty percent of the unknown CDSs are unique to IME-EC2. This phage does not show significant similarity to other phages at the DNA level, which suggests that IME-EC2 could be a novel phage. One of the unique features identified in the IME-EC2 genome was a gene coding for a putative colanic-acid-degrading protein, which could allow the phage to degrade bacterial capsule and biofilms. Another unique feature is that IME-EC2 does not contain a terminase small subunit, which suggests that this phage may have a unique packaging mechanism. The present work provides novel information on phages and shows that this lytic phage or its products could be exploited to destroy bacterial biofilms and pathogenic E. coli.

AB - Escherichia coli is an important opportunistic pathogen. It can cause sepsis and severe infection. The application of lytic bacteriophages to treat infectious diseases is an alternative to antibiotics. A lytic Escherichia coli phage, designated IME-EC2, was isolated from hospital sewage. Transmission electron microscopy revealed that IME-EC2 to be a member of the family Podoviridae. It had a 60-nm head and a 15-nm tail. Here, we present the complete genome sequence of this phage, which consists of 41,510 bp with an overall G+C content of 59.2 %. A total of 60 coding sequences (CDS) were identified, and the phage genome does not contain any tRNA genes. Forty percent of the unknown CDSs are unique to IME-EC2. This phage does not show significant similarity to other phages at the DNA level, which suggests that IME-EC2 could be a novel phage. One of the unique features identified in the IME-EC2 genome was a gene coding for a putative colanic-acid-degrading protein, which could allow the phage to degrade bacterial capsule and biofilms. Another unique feature is that IME-EC2 does not contain a terminase small subunit, which suggests that this phage may have a unique packaging mechanism. The present work provides novel information on phages and shows that this lytic phage or its products could be exploited to destroy bacterial biofilms and pathogenic E. coli.

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JO - Archives of Virology

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Characterization of the morphology and genome of an Escherichia coli podovirus

Resumen

Nota bibliográfica

ASJC Scopus Subject Areas

PubMed: MeSH publication types

ODS de las Naciones Unidas

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