Mining of the endophytic microbiome for novel biosynthetic genes and antifungal metabolites.

Mining of the endophytic microbiome for novel biosynthetic genes and antifungal metabolites.

Endophytic microbes have been proposed to contribute to a range of plant support functions, including nutrient acquisition and disease protection. To date, the molecular mechanisms underlying disease protection in the endosphere have only been studied for individual culturable organisms. Here, we conducted a systematic microbiome-wide perspective on the taxonomic diversity and functional potential of the endophytic microbiome of plants grown in an agricultural soil that is naturally suppressive to damping-off disease caused by the fungal root pathogen Rhizoctonia solani. Metagenomic analyses showed an enrichment of Burkholderiaceae, Chitinophagaceae and Xanthomonadaceae in the endosphere of plants grown in disease-suppressive soil challenged with the fungal root pathogen. Binning of the metagenomic sequences allowed de novo assembly of 25 high quality genomes of different endophytic bacterial genera. Subsequent trait-based analyses revealed numerous biosynthetic gene clusters (BGCs) overrepresented in the endophytic bacterial families of plants under fungal pathogen attack, including BGCs involved in signal transduction and antimicrobial activities, in particular nonribosomal peptides and polyketides. Network analyses further indicated that the traits enriched in the endophytic microbiome are multifactorial involving several novel BGCs encoding metabolites with yet unknown activities.

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Main Authors: CARRION, V. J., PÉREZ-JARAMILLO, J., CORDOVEZ, V., HOLLANDER, M. de, TRACANNA, V., MENDES, L. W., MENDES, R., MEDEMA, M. H., RAAIJMAKERS, J. M.
Other Authors: Victor J Carrion, Netherlands Institute of Ecology (NIOO-KNAW), Netherlands
Format: Separatas biblioteca
Language:pt_BR
por
Published: 2019-01-10
Subjects:Microbiome, Antifungal agents, Metagenomics,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1103500
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spelling dig-alice-doc-11035002019-01-11T00:11:16Z Mining of the endophytic microbiome for novel biosynthetic genes and antifungal metabolites. CARRION, V. J. PÉREZ-JARAMILLO, J. CORDOVEZ, V. HOLLANDER, M. de TRACANNA, V. MENDES, L. W. MENDES, R. MEDEMA, M. H. RAAIJMAKERS, J. M. Victor J Carrion, Netherlands Institute of Ecology (NIOO-KNAW), Netherlands Juan PÉREZ-JARAMILLO, Netherlands Institute of Ecology (NIOO-KNAW), Netherlands Viviane Cordovez, Neethrlands Institutee of Ecology (NIOO-KNAW), Netherlands Mattias de Hollander, Netherlands Institute of Ecology (NIOOKNAW), Netherlands Mattias de Hollander, Wageningen University, Netherlands Lucas W. Mendes, USP RODRIGO MENDES, CNPMA Marnix H Medema, Wageningen University, Netherlands Jos M. Raaijmakers, Netherlands Institute of Ecology (NIOO-KNAW), Netherlands. Microbiome Antifungal agents Metagenomics Endophytic microbes have been proposed to contribute to a range of plant support functions, including nutrient acquisition and disease protection. To date, the molecular mechanisms underlying disease protection in the endosphere have only been studied for individual culturable organisms. Here, we conducted a systematic microbiome-wide perspective on the taxonomic diversity and functional potential of the endophytic microbiome of plants grown in an agricultural soil that is naturally suppressive to damping-off disease caused by the fungal root pathogen Rhizoctonia solani. Metagenomic analyses showed an enrichment of Burkholderiaceae, Chitinophagaceae and Xanthomonadaceae in the endosphere of plants grown in disease-suppressive soil challenged with the fungal root pathogen. Binning of the metagenomic sequences allowed de novo assembly of 25 high quality genomes of different endophytic bacterial genera. Subsequent trait-based analyses revealed numerous biosynthetic gene clusters (BGCs) overrepresented in the endophytic bacterial families of plants under fungal pathogen attack, including BGCs involved in signal transduction and antimicrobial activities, in particular nonribosomal peptides and polyketides. Network analyses further indicated that the traits enriched in the endophytic microbiome are multifactorial involving several novel BGCs encoding metabolites with yet unknown activities. 2019-01-11T00:11:11Z 2019-01-11T00:11:11Z 2019-01-10 2018 2019-01-11T00:11:11Z Separatas In: PLANT MICROBIOME SYMPOSIUM, 2., 2018, Amsterdam. [Abstracts...] Amsterdam: Netherlands Institute of Ecology (NIOO-KNAW), 2018. http://www.alice.cnptia.embrapa.br/alice/handle/doc/1103500 pt_BR por openAccess
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language pt_BR
por
topic Microbiome
Antifungal agents
Metagenomics
Microbiome
Antifungal agents
Metagenomics
spellingShingle Microbiome
Antifungal agents
Metagenomics
Microbiome
Antifungal agents
Metagenomics
CARRION, V. J.
PÉREZ-JARAMILLO, J.
CORDOVEZ, V.
HOLLANDER, M. de
TRACANNA, V.
MENDES, L. W.
MENDES, R.
MEDEMA, M. H.
RAAIJMAKERS, J. M.
Mining of the endophytic microbiome for novel biosynthetic genes and antifungal metabolites.
description Endophytic microbes have been proposed to contribute to a range of plant support functions, including nutrient acquisition and disease protection. To date, the molecular mechanisms underlying disease protection in the endosphere have only been studied for individual culturable organisms. Here, we conducted a systematic microbiome-wide perspective on the taxonomic diversity and functional potential of the endophytic microbiome of plants grown in an agricultural soil that is naturally suppressive to damping-off disease caused by the fungal root pathogen Rhizoctonia solani. Metagenomic analyses showed an enrichment of Burkholderiaceae, Chitinophagaceae and Xanthomonadaceae in the endosphere of plants grown in disease-suppressive soil challenged with the fungal root pathogen. Binning of the metagenomic sequences allowed de novo assembly of 25 high quality genomes of different endophytic bacterial genera. Subsequent trait-based analyses revealed numerous biosynthetic gene clusters (BGCs) overrepresented in the endophytic bacterial families of plants under fungal pathogen attack, including BGCs involved in signal transduction and antimicrobial activities, in particular nonribosomal peptides and polyketides. Network analyses further indicated that the traits enriched in the endophytic microbiome are multifactorial involving several novel BGCs encoding metabolites with yet unknown activities.
author2 Victor J Carrion, Netherlands Institute of Ecology (NIOO-KNAW), Netherlands
author_facet Victor J Carrion, Netherlands Institute of Ecology (NIOO-KNAW), Netherlands
CARRION, V. J.
PÉREZ-JARAMILLO, J.
CORDOVEZ, V.
HOLLANDER, M. de
TRACANNA, V.
MENDES, L. W.
MENDES, R.
MEDEMA, M. H.
RAAIJMAKERS, J. M.
format Separatas
topic_facet Microbiome
Antifungal agents
Metagenomics
author CARRION, V. J.
PÉREZ-JARAMILLO, J.
CORDOVEZ, V.
HOLLANDER, M. de
TRACANNA, V.
MENDES, L. W.
MENDES, R.
MEDEMA, M. H.
RAAIJMAKERS, J. M.
author_sort CARRION, V. J.
title Mining of the endophytic microbiome for novel biosynthetic genes and antifungal metabolites.
title_short Mining of the endophytic microbiome for novel biosynthetic genes and antifungal metabolites.
title_full Mining of the endophytic microbiome for novel biosynthetic genes and antifungal metabolites.
title_fullStr Mining of the endophytic microbiome for novel biosynthetic genes and antifungal metabolites.
title_full_unstemmed Mining of the endophytic microbiome for novel biosynthetic genes and antifungal metabolites.
title_sort mining of the endophytic microbiome for novel biosynthetic genes and antifungal metabolites.
publishDate 2019-01-10
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1103500
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