Genome mining and metabolic profiling of the rhizosphere bacterium Pseudomonas sp. SH-C52 for antimicrobial compounds.

Detalhes bibliográficos
Autor(a) principal: VOORT, M. van der
Data de Publicação: 2015
Outros Autores: MEIJER, H. J. G., SCHMIDT, Y., WATROUS, J, DEKKERS, E., MENDES, R., DORRESTEIN, P. C, GROSS, H., RAAIJMAKERS, J. M.
Tipo de documento: Artigo
Idioma: eng
Título da fonte: Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice)
Texto Completo: http://www.alice.cnptia.embrapa.br/alice/handle/doc/1032807
Resumo: Abstract: The plant microbiome represents an enormous untapped resource for discovering novel genes and bioactive compounds. Previously, we isolated Pseudomonas sp. SH-C52 from the rhizosphere of sugar beet plants grown in a soil suppressive to the fungal pathogen Rhizoctonia solani and showed that its antifungal activity is, in part, attributed to the production of the chlorinated 9-amino-acid lipopeptide thanamycin (Mendes et al., 2011). To get more insight into its biosynthetic repertoire, the genome of Pseudomonas sp. SH-C52 was sequenced and subjected to in silico, mutational and functional analyses. The sequencing revealed a genome size of 6.3 Mb and 5579 predicted ORFs. Phylogenetic analysis placed strain SH-C52 within the Pseudomonas corrugata clade. In silico analysis for secondary metabolites revealed a total of six non-ribosomal peptide synthetase (NRPS) gene clusters, including the two previously described NRPS clusters for thanamycin and the 2-amino acid antibacterial lipopeptide brabantamide. Here we show that thanamycin also has activity and affects phospholipases of the late blight pathogen Phytophthora infestans. Most notably, mass spectrometry led to the discovery of a third lipopeptide, designated thanapeptin were found with varying degrees of activity against P. infestans. Of the remaining four NRPS clusters, one was predicted to encode for yet another and unknown lipopeptide with a predicted peptide moiety of 8-amino acids. Collectively, these results show an enormous metabolic potential for Pseudomonas sp. SH-C52, with at least three structurally diverse lipopeptides, each with a different antimicrobial activity spectrum.
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spelling Genome mining and metabolic profiling of the rhizosphere bacterium Pseudomonas sp. SH-C52 for antimicrobial compounds.PseudomonadsGenomes sequencingBiocontrolRizosferaBactériaPseudomonas spPeptídeoBeterrabaControle biológicoBeneficial microorganismsRhizosphere bacteriaAntimicrobial peptidesSequence analysisMass spectrometryBiological controlAbstract: The plant microbiome represents an enormous untapped resource for discovering novel genes and bioactive compounds. Previously, we isolated Pseudomonas sp. SH-C52 from the rhizosphere of sugar beet plants grown in a soil suppressive to the fungal pathogen Rhizoctonia solani and showed that its antifungal activity is, in part, attributed to the production of the chlorinated 9-amino-acid lipopeptide thanamycin (Mendes et al., 2011). To get more insight into its biosynthetic repertoire, the genome of Pseudomonas sp. SH-C52 was sequenced and subjected to in silico, mutational and functional analyses. The sequencing revealed a genome size of 6.3 Mb and 5579 predicted ORFs. Phylogenetic analysis placed strain SH-C52 within the Pseudomonas corrugata clade. In silico analysis for secondary metabolites revealed a total of six non-ribosomal peptide synthetase (NRPS) gene clusters, including the two previously described NRPS clusters for thanamycin and the 2-amino acid antibacterial lipopeptide brabantamide. Here we show that thanamycin also has activity and affects phospholipases of the late blight pathogen Phytophthora infestans. Most notably, mass spectrometry led to the discovery of a third lipopeptide, designated thanapeptin were found with varying degrees of activity against P. infestans. Of the remaining four NRPS clusters, one was predicted to encode for yet another and unknown lipopeptide with a predicted peptide moiety of 8-amino acids. Collectively, these results show an enormous metabolic potential for Pseudomonas sp. SH-C52, with at least three structurally diverse lipopeptides, each with a different antimicrobial activity spectrum.MENNO VAN DER VOORT, Wageningen University; HAROLD J G MEIJER, Wageningen University; YVONNE SCHMIDT, University of Bonn; JERAMIE WATROUS, University of California; ESTER DEKKERS, Wageningen University; RODRIGO MENDES, CNPMA; PIETER C DORRESTEIN, University of California; HARALD GROSS, University of California; JOS M RAAIJMAKERS, Wageningen University.VOORT, M. van derMEIJER, H. J. G.SCHMIDT, Y.WATROUS, JDEKKERS, E.MENDES, R.DORRESTEIN, P. CGROSS, H.RAAIJMAKERS, J. M.2016-01-04T11:11:11Z2016-01-04T11:11:11Z2016-01-0420152016-01-25T11:11:11Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/article14 p.Frontiers in Microbiology, Lausanne, v. 6, 2015. Article 696.http://www.alice.cnptia.embrapa.br/alice/handle/doc/1032807enginfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice)instname:Empresa Brasileira de Pesquisa Agropecuária (Embrapa)instacron:EMBRAPA2017-08-16T03:28:11Zoai:www.alice.cnptia.embrapa.br:doc/1032807Repositório InstitucionalPUBhttps://www.alice.cnptia.embrapa.br/oai/requestopendoar:21542017-08-16T03:28:11falseRepositório InstitucionalPUBhttps://www.alice.cnptia.embrapa.br/oai/requestcg-riaa@embrapa.bropendoar:21542017-08-16T03:28:11Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice) - Empresa Brasileira de Pesquisa Agropecuária (Embrapa)false
dc.title.none.fl_str_mv Genome mining and metabolic profiling of the rhizosphere bacterium Pseudomonas sp. SH-C52 for antimicrobial compounds.
title Genome mining and metabolic profiling of the rhizosphere bacterium Pseudomonas sp. SH-C52 for antimicrobial compounds.
spellingShingle Genome mining and metabolic profiling of the rhizosphere bacterium Pseudomonas sp. SH-C52 for antimicrobial compounds.
VOORT, M. van der
Pseudomonads
Genomes sequencing
Biocontrol
Rizosfera
Bactéria
Pseudomonas sp
Peptídeo
Beterraba
Controle biológico
Beneficial microorganisms
Rhizosphere bacteria
Antimicrobial peptides
Sequence analysis
Mass spectrometry
Biological control
title_short Genome mining and metabolic profiling of the rhizosphere bacterium Pseudomonas sp. SH-C52 for antimicrobial compounds.
title_full Genome mining and metabolic profiling of the rhizosphere bacterium Pseudomonas sp. SH-C52 for antimicrobial compounds.
title_fullStr Genome mining and metabolic profiling of the rhizosphere bacterium Pseudomonas sp. SH-C52 for antimicrobial compounds.
title_full_unstemmed Genome mining and metabolic profiling of the rhizosphere bacterium Pseudomonas sp. SH-C52 for antimicrobial compounds.
title_sort Genome mining and metabolic profiling of the rhizosphere bacterium Pseudomonas sp. SH-C52 for antimicrobial compounds.
author VOORT, M. van der
author_facet VOORT, M. van der
MEIJER, H. J. G.
SCHMIDT, Y.
WATROUS, J
DEKKERS, E.
MENDES, R.
DORRESTEIN, P. C
GROSS, H.
RAAIJMAKERS, J. M.
author_role author
author2 MEIJER, H. J. G.
SCHMIDT, Y.
WATROUS, J
DEKKERS, E.
MENDES, R.
DORRESTEIN, P. C
GROSS, H.
RAAIJMAKERS, J. M.
author2_role author
author
author
author
author
author
author
author
dc.contributor.none.fl_str_mv MENNO VAN DER VOORT, Wageningen University; HAROLD J G MEIJER, Wageningen University; YVONNE SCHMIDT, University of Bonn; JERAMIE WATROUS, University of California; ESTER DEKKERS, Wageningen University; RODRIGO MENDES, CNPMA; PIETER C DORRESTEIN, University of California; HARALD GROSS, University of California; JOS M RAAIJMAKERS, Wageningen University.
dc.contributor.author.fl_str_mv VOORT, M. van der
MEIJER, H. J. G.
SCHMIDT, Y.
WATROUS, J
DEKKERS, E.
MENDES, R.
DORRESTEIN, P. C
GROSS, H.
RAAIJMAKERS, J. M.
dc.subject.por.fl_str_mv Pseudomonads
Genomes sequencing
Biocontrol
Rizosfera
Bactéria
Pseudomonas sp
Peptídeo
Beterraba
Controle biológico
Beneficial microorganisms
Rhizosphere bacteria
Antimicrobial peptides
Sequence analysis
Mass spectrometry
Biological control
topic Pseudomonads
Genomes sequencing
Biocontrol
Rizosfera
Bactéria
Pseudomonas sp
Peptídeo
Beterraba
Controle biológico
Beneficial microorganisms
Rhizosphere bacteria
Antimicrobial peptides
Sequence analysis
Mass spectrometry
Biological control
description Abstract: The plant microbiome represents an enormous untapped resource for discovering novel genes and bioactive compounds. Previously, we isolated Pseudomonas sp. SH-C52 from the rhizosphere of sugar beet plants grown in a soil suppressive to the fungal pathogen Rhizoctonia solani and showed that its antifungal activity is, in part, attributed to the production of the chlorinated 9-amino-acid lipopeptide thanamycin (Mendes et al., 2011). To get more insight into its biosynthetic repertoire, the genome of Pseudomonas sp. SH-C52 was sequenced and subjected to in silico, mutational and functional analyses. The sequencing revealed a genome size of 6.3 Mb and 5579 predicted ORFs. Phylogenetic analysis placed strain SH-C52 within the Pseudomonas corrugata clade. In silico analysis for secondary metabolites revealed a total of six non-ribosomal peptide synthetase (NRPS) gene clusters, including the two previously described NRPS clusters for thanamycin and the 2-amino acid antibacterial lipopeptide brabantamide. Here we show that thanamycin also has activity and affects phospholipases of the late blight pathogen Phytophthora infestans. Most notably, mass spectrometry led to the discovery of a third lipopeptide, designated thanapeptin were found with varying degrees of activity against P. infestans. Of the remaining four NRPS clusters, one was predicted to encode for yet another and unknown lipopeptide with a predicted peptide moiety of 8-amino acids. Collectively, these results show an enormous metabolic potential for Pseudomonas sp. SH-C52, with at least three structurally diverse lipopeptides, each with a different antimicrobial activity spectrum.
publishDate 2015
dc.date.none.fl_str_mv 2015
2016-01-04T11:11:11Z
2016-01-04T11:11:11Z
2016-01-04
2016-01-25T11:11:11Z
dc.type.driver.fl_str_mv info:eu-repo/semantics/publishedVersion
info:eu-repo/semantics/article
format article
status_str publishedVersion
dc.identifier.uri.fl_str_mv Frontiers in Microbiology, Lausanne, v. 6, 2015. Article 696.
http://www.alice.cnptia.embrapa.br/alice/handle/doc/1032807
identifier_str_mv Frontiers in Microbiology, Lausanne, v. 6, 2015. Article 696.
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1032807
dc.language.iso.fl_str_mv eng
language eng
dc.rights.driver.fl_str_mv info:eu-repo/semantics/openAccess
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv 14 p.
dc.source.none.fl_str_mv reponame:Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice)
instname:Empresa Brasileira de Pesquisa Agropecuária (Embrapa)
instacron:EMBRAPA
instname_str Empresa Brasileira de Pesquisa Agropecuária (Embrapa)
instacron_str EMBRAPA
institution EMBRAPA
reponame_str Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice)
collection Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice)
repository.name.fl_str_mv Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice) - Empresa Brasileira de Pesquisa Agropecuária (Embrapa)
repository.mail.fl_str_mv cg-riaa@embrapa.br
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