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« Previous AbstractThe Ecological Role of Volatile and Soluble Secondary Metabolites Produced by Soil Bacteria    Next AbstractThe ecological role of bacterial seed endophytes associated with wild cabbage in the United Kingdom »

Microb Biotechnol


Title:Exploring bacterial interspecific interactions for discovery of novel antimicrobial compounds
Author(s):Tyc O; de Jager VCL; van den Berg M; Gerards S; Janssens TKS; Zaagman N; Kai M; Svatos A; Zweers H; Hordijk C; Besselink H; de Boer W; Garbeva P;
Address:"Department of Microbial Ecology, Netherlands Institute of Ecology (NIOO-KNAW), PO BOX 50, 6700 AB, Wageningen, The Netherlands. MicroLife Solutions B.V., Science Park 406, 1098 XH, Amsterdam, The Netherlands. Mass Spectrometry Research Group, Max Planck Institute for Chemical Ecology, Hans-Knoell-Str. 8, D-07745, Jena, Germany. BioDetection Systems B.V., Science Park 406, 1098 XH, Amsterdam, The Netherlands. Department of Soil Quality, Wageningen University and Research Centre (WUR), PO BOX 47, 6700 AA, Wageningen, The Netherlands"
Journal Title:Microb Biotechnol
Year:2017
Volume:20170529
Issue:4
Page Number:910 - 925
DOI: 10.1111/1751-7915.12735
ISSN/ISBN:1751-7915 (Electronic) 1751-7915 (Linking)
Abstract:"Recent studies indicated that the production of secondary metabolites by soil bacteria can be triggered by interspecific interactions. However, little is known to date about interspecific interactions between Gram-positive and Gram-negative bacteria. In this study, we aimed to understand how the interspecific interaction between the Gram-positive Paenibacillus sp. AD87 and the Gram-negative Burkholderia sp. AD24 affects the fitness, gene expression and the production of soluble and volatile secondary metabolites of both bacteria. To obtain better insight into this interaction, transcriptome and metabolome analyses were performed. Our results revealed that the interaction between the two bacteria affected their fitness, gene expression and the production of secondary metabolites. During interaction, the growth of Paenibacillus was not affected, whereas the growth of Burkholderia was inhibited at 48 and 72 h. Transcriptome analysis revealed that the interaction between Burkholderia and Paenibacillus caused significant transcriptional changes in both bacteria as compared to the monocultures. The metabolomic analysis revealed that the interaction increased the production of specific volatile and soluble antimicrobial compounds such as 2,5-bis(1-methylethyl)-pyrazine and an unknown Pederin-like compound. The pyrazine volatile compound produced by Paenibacillus was subjected to bioassays and showed strong inhibitory activity against Burkholderia and a range of plant and human pathogens. Moreover, strong additive antimicrobial effects were observed when soluble extracts from the interacting bacteria were combined with the pure 2,5-bis(1-methylethyl)-pyrazine. The results obtained in this study highlight the importance to explore bacterial interspecific interactions to discover novel secondary metabolites and to perform simultaneously metabolomics of both, soluble and volatile compounds"
Keywords:Anti-Bacterial Agents/*isolation & purification/*metabolism *Antibiosis Biological Products/*isolation & purification/*metabolism Burkholderia/growth & development/*physiology Gene Expression Profiling Humans Metabolomics Paenibacillus/growth & developmen;
Notes:"MedlineTyc, Olaf de Jager, Victor C L van den Berg, Marlies Gerards, Saskia Janssens, Thierry K S Zaagman, Niels Kai, Marco Svatos, Ales Zweers, Hans Hordijk, Cornelis Besselink, Harrie de Boer, Wietse Garbeva, Paolina eng Research Support, Non-U.S. Gov't 2017/05/31 Microb Biotechnol. 2017 Jul; 10(4):910-925. doi: 10.1111/1751-7915.12735. Epub 2017 May 29"

 
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