Francesca Brescia, Lisa Ioriatti, Oscar Giovannini, Gerardo Puopolo and Ilaria Pertot
Research and Innovation Centre, Fondazione Edmund Mach (FEM), Italy
University of Udine, Italy
University of Trento, Italy
Scientific Tracks Abstracts: J Med Microb Diagn
Statement of the Problem: Bacterial biocontrol agents can improve plant heath with various mechanisms. The
bacterial genus Lysobacter includes different species producing compounds and lytic enzymes active against
phytopathogenic microorganisms and therefore can be a source of new biocontrol agents. In particular, L. capsici
AZ78 (AZ78), isolated from tobacco rhizosphere, effectively controls the causal agent of grapevine downy mildew
(Plasmopara viticola), thanks to the production of antibiotics. Since bacterial communities might modulate the
antibiotic production of biocontrol agents, the aim of this research was to understand if grapevine phyllosphere
bacteria could affect the antibiotic production of AZ78. To test the hypothesis we used a simplified model system
with a culturable phytopathogenic oomycete (Pythium ultimum).
Methodology & Theoretical Orientation: 47 bacterial strains were isolated from leaves of Vitis vinifera L. cv. Pinot
gris and Goldtraminer, identified by 16S rDNA phylogenetic analysis and their impact on AZ78ā??s inhibitory activity
was assessed in vitro according to the experimental design described in Figure 1.
Findings: Most of the Gram-negative bacterial isolates were Ī³-Proteobacteria, while the Gram-positive isolates
belonged to Actinobacteria and Firmicutes. None of the isolated strains showed an inhibitory activity against P.
ultimum. Interestingly, most of them promoted AZ78 inhibitory activity. In particular Pseudomonas sp. L35 increased
AZ78 inhibitory activity of the 29.6Ā±0.95%, this can be related to a change in AZ78 gene expression triggered by the
presence of the strain.
Conclusion & Significance: The interaction with the natural microbiota is an important factor to be considered in
evaluating biocontrol agentā??s efficacy, because their inhibitory activity can be affected by the microbiota itself. To
gain a full picture, additional studies are necessary, taking into account the plant response, as well as considering the
variation in AZ78 gene expression.
Recent Publications
1. Puopolo G, Tomada S and Pertot I (2018) The impact of the omics era on the knowledge and use of Lysobacter
species to control phytopathogenic micro-organisms. Journal of Applied Microbiology 124(1):15-27.
2. De Boer W (2017) Upscaling of fungal-bacterial interactions: from the lab to the field. Current Opinion in
Microbiology 37:35-41.
3. Tyc O, de Jager V C L, van den Berg M, Gerards S, Janssens T K S, Zaagman N, Kai M, Svatos A, Zweers H,
Hordijk C, Besselink H, de Boer W and Garbeva P (2017) Exploring bacterial interspecific interactions for
discovery of novel antimicrobial compounds. Microbial Biotechnology 10(4):910-925.
4. Panthee S, Hamamoto H, Paudel A and Sekimizu K (2016) Lysobacter species: a potential source of novel
antibiotics. Archives of Microbiology 198(9):839-845.
5. Puopolo G, Cimmino A, Palmieri MC, Giovannini O, Evidente A and Pertot I (2014) Lysobacter capsici AZ78
produces cyclo(L-Pro-L-Tyr), a 2,5-diketopiperazine with toxic activity against sporangia of Phytophthora
infestans and Plasmopara viticola. Journal of Applied Microbiology 117(4):1168-1180.
Francesca Brescia has obtained her Bachelor’s degree in Biology at the University of Torino in 2013. She decided to continue her studies at the University of Pavia, where in 2015 she obtained her Master’s degree in Experimental and Applied Biology and, in November 2015, she gained a nine-month research fellowship about the study of the fungal community associated to different Rubus species. In 2016, she started the doctoral course at the PhD school “Agricultural Science and Biotechnology” of the University of Udine at the Edmund Mach Foundation of San Michele all’Adige (TN) concerning the interactions between plantassociated bacteria and biocontrol agents in different nutrient conditions. From August 2018 to February 2019 she was a visiting PhD student at the Technical University of Vienna (Austria), where she carried out a part of her PhD project studying the compounds produced during microbial interactions.
E-mail: brescia@guests.fmach.it
Medical Microbiology & Diagnosis received 14 citations as per Google Scholar report