Literature DB >> 26057845

Microbial and biochemical basis of a Fusarium wilt-suppressive soil.

Jae-Yul Cha1, Sangjo Han2, Hee-Jeon Hong3, Hyunji Cho4, Daran Kim1, Youngho Kwon1, Soon-Kyeong Kwon5, Max Crüsemann6, Yong Bok Lee4, Jihyun F Kim5, Guri Giaever7, Corey Nislow7, Bradley S Moore6, Linda S Thomashow8, David M Weller8, Youn-Sig Kwak1,4.   

Abstract

Crops lack genetic resistance to most necrotrophic pathogens. To compensate for this disadvantage, plants recruit antagonistic members of the soil microbiome to defend their roots against pathogens and other pests. The best examples of this microbially based defense of roots are observed in disease-suppressive soils in which suppressiveness is induced by continuously growing crops that are susceptible to a pathogen, but the molecular basis of most is poorly understood. Here we report the microbial characterization of a Korean soil with specific suppressiveness to Fusarium wilt of strawberry. In this soil, an attack on strawberry roots by Fusarium oxysporum results in a response by microbial defenders, of which members of the Actinobacteria appear to have a key role. We also identify Streptomyces genes responsible for the ribosomal synthesis of a novel heat-stable antifungal thiopeptide antibiotic inhibitory to F. oxysporum and the antibiotic's mode of action against fungal cell wall biosynthesis. Both classical- and community-oriented approaches were required to dissect this suppressive soil from the field to the molecular level, and the results highlight the role of natural antibiotics as weapons in the microbial warfare in the rhizosphere that is integral to plant health, vigor and development.

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Mesh:

Year:  2015        PMID: 26057845      PMCID: PMC4681868          DOI: 10.1038/ismej.2015.95

Source DB:  PubMed          Journal:  ISME J        ISSN: 1751-7362            Impact factor:   10.302


  33 in total

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Journal:  Science       Date:  2008-04-18       Impact factor: 47.728

5.  Antifungal thiopeptide cyclothiazomycin B1 exhibits growth inhibition accompanying morphological changes via binding to fungal cell wall chitin.

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9.  Influence of disease-suppressive strains of Streptomyces on the native Streptomyces community in soil as determined by the analysis of cellular fatty acids.

Authors:  J H Bowers; L L Kinkel; R K Jones
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Journal:  BMC Genomics       Date:  2008-02-08       Impact factor: 3.969
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  86 in total

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5.  Sharing and community curation of mass spectrometry data with Global Natural Products Social Molecular Networking.

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6.  Development of PCR-based molecular marker for screening of disease-suppressive composts against Fusarium wilt of tomato (Solanum lycopersicum L.).

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7.  Rhizosphere microbiome structure alters to enable wilt resistance in tomato.

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