Culture and metagenomic approaches for the identification of olive xylem microbial communities as a biological control tool to cope against Xylella fastidiosa infection
| Main Authors: | Anguita-Maeso Manuel, Navas-Cortes Juan A., Coletta-Filho Helvecio, Landa Blanca B. |
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| Format: | Proceeding poster Journal |
| Bahasa: | eng |
| Terbitan: |
, 2021
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| Subjects: | |
| Online Access: |
https://zenodo.org/record/4671712 |
Daftar Isi:
- The xylem-inhabiting plant pathogenic bacterium Xylella fastidiosa (Xf) represents one of the major phytopathological threats to olive crop worldwide, due to its devastating effects on agricultural yields losses and high tree mortality that causes profound socioeconomic and environmental impacts. Endophytes play an essential role on plant growth and its physiological status, but they can also act as an innate natural defense to cope against infection by xylem-inhabiting pathogenic organisms. Today, vast majority of microorganisms residing in olive xylem are unknown; therefore this work pursues the characterization of the olive microbiome through culture-dependent and independent (NGS) techniques as a tool for identifying potential biological control agents for this pathogen. Hence, four cultivated olive genotypes (Arbequina, Arbosana, Koroneiki and Grappolo) located in Sao Paulo state (Brazil) showing visual Xf symptoms or asymptomatic-non-infected were selected. Xf infection was verified by qPCR. For the culture-dependent approach, chips extracts of xylem tissue from branches and roots were plated in two solid media (R2A and R2A supplemented with plant extract). For culture independent approach, total DNA extracted from xylem tissue was analyzed by metagenomic analysis of 16S and ITS region to characterize the xylem-inhabiting bacterial and fungal communities. Preliminary culture results indicated differences in the frequency of microbial communities depending on the olive genotype and the type of plant material analyzed, as well as, the presence or absence of Xf symptoms on the sampled trees that correlated with Xf infection. These results will help to expand our knowledge on the olive xylem microbiome community composition and understand its driving factors when Xf infection occurs and more importantly to identify xylem-inhabiting microorganisms with potential to combat this harmful bacterium. Study supported by Projects 727987 XF-ACTORS (EU-H2020) and AGL2016-75606-R (MEIC Spain and FEDER-EU) and SEGIB – Carolina Foundation.
- ES; PPT; manguitamaeso@gmail.com