Antibiotics, toxins and volatile organic compounds (VOCs), are some of the plethora of secondary metabolites produced by soil bacteria. These secondary metabolites have been shown to impact on microbial interactions in the soil. Here, we studied the activity and production of VOCs emitted by Lysobacter capsici AZ78, a soil bacterium, which produces non-volatile secondary metabolites toxic against plant pathogens [1]. Recently, it has been shown that VOCs produced by L. capsici DSM 19286 grown in a protein rich medium were highly active against Phytophthora infestans in vitro [2]. In contrast, the VOC-mediated inhibitory effect was attenuated when the strain was grown in a sugar rich medium. Based on these findings, we studied the effect of medium composition on the inhibition activity of L. capsici AZ78 against plant pathogens (e.g. Rhizoctonia solani). In parallel, GC-MS was combined with dynamic headspace (DHS) extraction and thermodesorption to investigate both type and relative amount of VOCs produced by the bacterium grown in media with crescent sugar (glucose) concentrations. Generally, VOC emission profiles exhibited mainly quantitative and not qualitative differences. The chemical group of pyrazines was the most abundant in the volatile profile of L. capsici AZ78 growing in the various media. We additionally conducted experiments using a setup with Petri dishes having two compartments, where we measured the VOCs profile in the one compartment when the bacterium was growing on crescent sugar concentrations in the other. We confirmed the presence of the identified VOCs, thus giving an insight into which compounds could participate in L. capsici AZ78 bioactivity, exhibited during the pathogen inhibition assay. Currently, we are examining the inhibitory effects of the identified compounds against various plant pathogens in vitro, with the aim to understand the mechanisms of VOC-mediated microbe-microbe communications and to select bioactive VOCs for the further development of novel biopesticides.
Vlassi, A.; Puopolo, G.; Perazzolli, M.; Nesler, A.; Parich, A.; Schuhmacher, R. (2018). Characterization of the volatilome of Lysobacter capsici AZ78 and its bioactivity against soilborne plant pathogenic fungi and oomycetes. In: 13 DocDay, Tulln an der Donau, 23-24 October 2018: 32. url: http://docday2018.boku.ac.at/ProgramDocDay2018.pdf handle: http://hdl.handle.net/10449/52827
Characterization of the volatilome of Lysobacter capsici AZ78 and its bioactivity against soilborne plant pathogenic fungi and oomycetes
Puopolo, G.;Perazzolli, M.;
2018-01-01
Abstract
Antibiotics, toxins and volatile organic compounds (VOCs), are some of the plethora of secondary metabolites produced by soil bacteria. These secondary metabolites have been shown to impact on microbial interactions in the soil. Here, we studied the activity and production of VOCs emitted by Lysobacter capsici AZ78, a soil bacterium, which produces non-volatile secondary metabolites toxic against plant pathogens [1]. Recently, it has been shown that VOCs produced by L. capsici DSM 19286 grown in a protein rich medium were highly active against Phytophthora infestans in vitro [2]. In contrast, the VOC-mediated inhibitory effect was attenuated when the strain was grown in a sugar rich medium. Based on these findings, we studied the effect of medium composition on the inhibition activity of L. capsici AZ78 against plant pathogens (e.g. Rhizoctonia solani). In parallel, GC-MS was combined with dynamic headspace (DHS) extraction and thermodesorption to investigate both type and relative amount of VOCs produced by the bacterium grown in media with crescent sugar (glucose) concentrations. Generally, VOC emission profiles exhibited mainly quantitative and not qualitative differences. The chemical group of pyrazines was the most abundant in the volatile profile of L. capsici AZ78 growing in the various media. We additionally conducted experiments using a setup with Petri dishes having two compartments, where we measured the VOCs profile in the one compartment when the bacterium was growing on crescent sugar concentrations in the other. We confirmed the presence of the identified VOCs, thus giving an insight into which compounds could participate in L. capsici AZ78 bioactivity, exhibited during the pathogen inhibition assay. Currently, we are examining the inhibitory effects of the identified compounds against various plant pathogens in vitro, with the aim to understand the mechanisms of VOC-mediated microbe-microbe communications and to select bioactive VOCs for the further development of novel biopesticides.File | Dimensione | Formato | |
---|---|---|---|
2018 Puopolo_32.pdf
accesso aperto
Tipologia:
Abstract
Licenza:
Tutti i diritti riservati (All rights reserved)
Dimensione
197.66 kB
Formato
Adobe PDF
|
197.66 kB | Adobe PDF | Visualizza/Apri |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.