@article{miliordos_alatzas_kontoudakis_kouki_unlubayir_gémin_tako_hatzopoulos_lanoue_kotseridis_2022, title={Abscisic Acid and Chitosan Modulate Polyphenol Metabolism and Berry Qualities in the Domestic White-Colored Cultivar Savvatiano}, volume={11}, url={https://doi.org/10.3390/plants11131648}, DOI={10.3390/plants11131648}, abstractNote={During the last decade, several studies demonstrated the effect of biostimulants on the transcriptional and metabolic profile of grape berries, suggesting their application as a useful viticultural practice to improve grape and wine quality. Herein, we investigated the impact of two biostimulants—abscisic acid (0.04% w/v and 0.08% w/v) and chitosan (0.3% w/v and 0.6% w/v)—on the polyphenol metabolism of the Greek grapevine cultivar, Savvatiano, in order to determine the impact of biostimulants’ application in the concentration of phenolic compounds. The applications were performed at the veraison stage and the impact on yield, berry quality traits, metabolome and gene expression was examined at three phenological stages (veraison, middle veraison and harvest) during the 2019 and 2020 vintages. Results showed that anthocyanins increased during veraison after treatment with chitosan and abscisic acid. Additionally, stilbenoids were recorded in higher amount following the chitosan and abscisic acid treatments at harvest. Both of the abscisic acid and chitosan applications induced the expression of genes involved in stilbenoids and anthocyanin biosynthesis and resulted in increased accumulation, regardless of the vintage. Alterations in other phenylpropanoid gene expression profiles and phenolic compound concentrations were observed as well. Nevertheless, they were mostly restricted to the first vintage. Therefore, the application of abscisic acid and chitosan on the Greek cultivar Savvatiano showed promising results to induce stilbenoid metabolism and potentially increase grape defense and quality traits.}, number={13}, journal={Plants}, publisher={MDPI AG}, author={Miliordos, Dimitrios Evangelos and Alatzas, Anastasios and Kontoudakis, Nikolaos and Kouki, Angeliki and Unlubayir, Marianne and Gémin, Marin-Pierre and Tako, Alexandros and Hatzopoulos, Polydefkis and Lanoue, Arnaud and Kotseridis, Yorgos}, year={2022}, month={Jun}, pages={1648} }
 @article{gkikas_tako_gkizi_lagogianni_markakis_tjamos_2021, title={<i>Paenibacillus alvei</i> K165 and <i>Fusarium oxysporum</i> F2: Potential Biocontrol Agents against <i>Phaeomoniella chlamydospora</i> in Grapevines}, volume={10}, url={https://www.mdpi.com/2223-7747/10/2/207}, DOI={10.3390/plants10020207}, abstractNote={In the last two decades grapevine trunk diseases (GTDs) have emerged as the most significant threat for grapevine sustainability worldwide. The tracheomycotic fungus Phaeomoniella chlamydospora (Pch) is the predominant GTD-associated species and cannot be controlled with available chemicals. In the present study, we evaluated the effectiveness of two microbial strains (Paenibacillus alvei K165 and Fusarium oxysporum F2) against Pch in grapevine. In vitro bioassays, performed in a growth culture medium simulating the xylem environment, indicated that F2 decreased Pch growth and sporulation, whereas K165 did not have any effect on Pch growth. In planta experiments revealed that root-drench and stem-puncture application of K165 and F2 reduced the endophytic relative DNA amount of Pch by 90% and 82%, respectively, compared to controls. However, wood discoloration, the typical symptom of Pch infection, was not reduced in the F2 treated grapevines. Nevertheless, the F2 treated grapevines harbored higher lignin levels compared to mocks, as it was also done by K165. Therefore, F2 and K165 have the potential to be used as biocontrol agents against Pch in grapevines.}, number={2}, journal={Plants}, publisher={MDPI AG}, author={Gkikas, Fedon-Ioannis and Tako, Alexander and Gkizi, Danai and Lagogianni, Christina and Markakis, Emmanouil and Tjamos, Sotirios E.}, year={2021}, month={Jan}, pages={207} }