Phage combination therapies for bacterial wilt disease in tomato

Bacteriophages have been proposed as an alternative to pesticides to kill bacterial pathogens of crops. However, the efficacy of phage biocontrol is variable and poorly understood in natural rhizosphere microbiomes. We studied biocontrol efficacy of different phage combinations on Ralstonia solanace...

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Published in	Nature biotechnology Vol. 37; no. 12; pp. 1513 - 1520
Main Authors	Wang, Xiaofang, Wei, Zhong, Yang, Keming, Wang, Jianing, Jousset, Alexandre, Xu, Yangchun, Shen, Qirong, Friman, Ville-Petri
Format	Journal Article
Language	English
Published	New York Nature Publishing Group US 01.12.2019 Nature Publishing Group
Subjects	631/158/1745 631/158/2456 631/158/855 631/326/2565/2134 631/61/168 Agriculture Bacteria Bacterial diseases of plants Bacteriophages Bacteriophages - genetics Bioinformatics Biological control Biomedical and Life Sciences Biomedical Engineering/Biotechnology Biomedicine Biotechnology Care and treatment Diseases and pests Environmental aspects Field tests Incidence Life Sciences Lycopersicon esculentum - microbiology Microbiomes Microbiota Pathogens Pest Control, Biological - methods Pesticides Phages Plant Diseases - microbiology Ralstonia solanacearum - genetics Ralstonia solanacearum - pathogenicity Ralstonia solanacearum - virology Rhizosphere Tomatoes Wilt China
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Abstract	Bacteriophages have been proposed as an alternative to pesticides to kill bacterial pathogens of crops. However, the efficacy of phage biocontrol is variable and poorly understood in natural rhizosphere microbiomes. We studied biocontrol efficacy of different phage combinations on Ralstonia solanacearum infection in tomato. Increasing the number of phages in combinations decreased the incidence of disease by up to 80% in greenhouse and field experiments during a single crop season. The decreased incidence of disease was explained by a reduction in pathogen density and the selection for phage-resistant but slow-growing pathogen strains, together with enrichment for bacterial species that were antagonistic toward R. solanacearum . Phage treatment did not affect the existing rhizosphere microbiota. Specific phage combinations have potential as precision tools to control plant pathogenic bacteria. Phage combination therapies reduce bacterial wilt disease incidence in tomato by up to 80%.
AbstractList	Bacteriophages have been proposed as an alternative to pesticides to kill bacterial pathogens of crops. However, the efficacy of phage biocontrol is variable and poorly understood in natural rhizosphere microbiomes. We studied biocontrol efficacy of different phage combinations on Ralstonia solanacearum infection in tomato. Increasing the number of phages in combinations decreased the incidence of disease by up to 80% in greenhouse and field experiments during a single crop season. The decreased incidence of disease was explained by a reduction in pathogen density and the selection for phage-resistant but slow-growing pathogen strains, together with enrichment for bacterial species that were antagonistic toward R. solanacearum. Phage treatment did not affect the existing rhizosphere microbiota. Specific phage combinations have potential as precision tools to control plant pathogenic bacteria. Bacteriophages have been proposed as an alternative to pesticides to kill bacterial pathogens of crops. However, the efficacy of phage biocontrol is variable and poorly understood in natural rhizosphere microbiomes. We studied biocontrol efficacy of different phage combinations on Ralstonia solanacearum infection in tomato. Increasing the number of phages in combinations decreased the incidence of disease by up to 80% in greenhouse and field experiments during a single crop season. The decreased incidence of disease was explained by a reduction in pathogen density and the selection for phage-resistant but slow-growing pathogen strains, together with enrichment for bacterial species that were antagonistic toward R. solanacearum. Phage treatment did not affect the existing rhizosphere microbiota. Specific phage combinations have potential as precision tools to control plant pathogenic bacteria. Phage combination therapies reduce bacterial wilt disease incidence in tomato by up to 80%. Bacteriophages have been proposed as an alternative to pesticides to kill bacterial pathogens of crops. However, the efficacy of phage biocontrol is variable and poorly understood in natural rhizosphere microbiomes. We studied biocontrol efficacy of different phage combinations on Ralstonia solanacearum infection in tomato. Increasing the number of phages in combinations decreased the incidence of disease by up to 80% in greenhouse and field experiments during a single crop season. The decreased incidence of disease was explained by a reduction in pathogen density and the selection for phage-resistant but slow-growing pathogen strains, together with enrichment for bacterial species that were antagonistic toward R. solanacearum. Phage treatment did not affect the existing rhizosphere microbiota. Specific phage combinations have potential as precision tools to control plant pathogenic bacteria.Bacteriophages have been proposed as an alternative to pesticides to kill bacterial pathogens of crops. However, the efficacy of phage biocontrol is variable and poorly understood in natural rhizosphere microbiomes. We studied biocontrol efficacy of different phage combinations on Ralstonia solanacearum infection in tomato. Increasing the number of phages in combinations decreased the incidence of disease by up to 80% in greenhouse and field experiments during a single crop season. The decreased incidence of disease was explained by a reduction in pathogen density and the selection for phage-resistant but slow-growing pathogen strains, together with enrichment for bacterial species that were antagonistic toward R. solanacearum. Phage treatment did not affect the existing rhizosphere microbiota. Specific phage combinations have potential as precision tools to control plant pathogenic bacteria. Bacteriophages have been proposed as an alternative to pesticides to kill bacterial pathogens of crops. However, the efficacy of phage biocontrol is variable and poorly understood in natural rhizosphere microbiomes. We studied biocontrol efficacy of different phage combinations on Ralstonia solanacearum infection in tomato. Increasing the number of phages in combinations decreased the incidence of disease by up to 80% in greenhouse and field experiments during a single crop season. The decreased incidence of disease was explained by a reduction in pathogen density and the selection for phage-resistant but slow-growing pathogen strains, together with enrichment for bacterial species that were antagonistic toward R. solanacearum . Phage treatment did not affect the existing rhizosphere microbiota. Specific phage combinations have potential as precision tools to control plant pathogenic bacteria. Phage combination therapies reduce bacterial wilt disease incidence in tomato by up to 80%.
Audience	Academic
Author	Shen, Qirong Wei, Zhong Jousset, Alexandre Xu, Yangchun Wang, Xiaofang Wang, Jianing Friman, Ville-Petri Yang, Keming
Author_xml	– sequence: 1 givenname: Xiaofang surname: Wang fullname: Wang, Xiaofang organization: Jiangsu Provincial Key Laboratory for Organic Solid Waste Utilization, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, National Engineering Research Center for Organic-Based Fertilizers, Nanjing Agricultural University, Weigang – sequence: 2 givenname: Zhong orcidid: 0000-0002-7967-4897 surname: Wei fullname: Wei, Zhong email: weizhong@njau.edu.cn organization: Jiangsu Provincial Key Laboratory for Organic Solid Waste Utilization, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, National Engineering Research Center for Organic-Based Fertilizers, Nanjing Agricultural University, Weigang – sequence: 3 givenname: Keming surname: Yang fullname: Yang, Keming organization: Jiangsu Provincial Key Laboratory for Organic Solid Waste Utilization, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, National Engineering Research Center for Organic-Based Fertilizers, Nanjing Agricultural University, Weigang – sequence: 4 givenname: Jianing surname: Wang fullname: Wang, Jianing organization: Jiangsu Provincial Key Laboratory for Organic Solid Waste Utilization, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, National Engineering Research Center for Organic-Based Fertilizers, Nanjing Agricultural University, Weigang – sequence: 5 givenname: Alexandre surname: Jousset fullname: Jousset, Alexandre organization: Jiangsu Provincial Key Laboratory for Organic Solid Waste Utilization, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, National Engineering Research Center for Organic-Based Fertilizers, Nanjing Agricultural University, Weigang, Institute of Environmental Biology, Ecology and Biodiversity, Utrecht University – sequence: 6 givenname: Yangchun surname: Xu fullname: Xu, Yangchun organization: Jiangsu Provincial Key Laboratory for Organic Solid Waste Utilization, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, National Engineering Research Center for Organic-Based Fertilizers, Nanjing Agricultural University, Weigang – sequence: 7 givenname: Qirong orcidid: 0000-0002-4939-2506 surname: Shen fullname: Shen, Qirong email: qirongshen@njau.edu.cn organization: Jiangsu Provincial Key Laboratory for Organic Solid Waste Utilization, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, National Engineering Research Center for Organic-Based Fertilizers, Nanjing Agricultural University, Weigang – sequence: 8 givenname: Ville-Petri orcidid: 0000-0002-1592-157X surname: Friman fullname: Friman, Ville-Petri email: ville.friman@york.ac.uk organization: Jiangsu Provincial Key Laboratory for Organic Solid Waste Utilization, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, National Engineering Research Center for Organic-Based Fertilizers, Nanjing Agricultural University, Weigang, Department of Biology, University of York
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Snippet	Bacteriophages have been proposed as an alternative to pesticides to kill bacterial pathogens of crops. However, the efficacy of phage biocontrol is variable...
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SubjectTerms	631/158/1745 631/158/2456 631/158/855 631/326/2565/2134 631/61/168 Agriculture Bacteria Bacterial diseases of plants Bacteriophages Bacteriophages - genetics Bioinformatics Biological control Biomedical and Life Sciences Biomedical Engineering/Biotechnology Biomedicine Biotechnology Care and treatment Diseases and pests Environmental aspects Field tests Incidence Life Sciences Lycopersicon esculentum - microbiology Microbiomes Microbiota Pathogens Pest Control, Biological - methods Pesticides Phages Plant Diseases - microbiology Ralstonia solanacearum - genetics Ralstonia solanacearum - pathogenicity Ralstonia solanacearum - virology Rhizosphere Tomatoes Wilt
Title	Phage combination therapies for bacterial wilt disease in tomato
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