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2. Management of the olive decline disease complex caused by Xylella fastidiosa subsp. pauca and Neofusicoccum spp. in Apulia, Italy

Author

Scortichini, Marco, Loreti, Stefania, Scala, Valeria, Pucci, Nicoletta, Pilotti, Massimo, Tatulli, Giuseppe, Cesari, Erica, L'Aurora, Alessia, Reverberi, Massimo, Cristella, Nicola, Marangi, Paolo, Blonda, Palma, Tarantino, Cristina, Adamo, Maria, Maggi, Sabino, Cesari, Gianluigi, Girelli, Chiara Roberta, Angilè, Federica, Hussain, Mudassar, Migoni, Danilo, and Fanizzi, Francesco Paolo

Published
2024
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7. In Vitro and In Vivo Antioxidant and Immune Stimulation Activity of Wheat Product Extracts.

Author

Mengoni, Beatrice, Armeli, Federica, Schifano, Emily, Prencipe, Sabrina Antonia, Pompa, Laura, Sciubba, Fabio, Brasili, Elisa, Giampaoli, Ottavia, Mura, Francesco, Reverberi, Massimo, Beccaccioli, Marzia, Pinto, Alessandro, De Giusti, Maria, Uccelletti, Daniela, Businaro, Rita, and Vinci, Giuliana

Abstract

Background/Objectives: Inflammation and oxidative stress are the main pathogenetic pathways involved in the development of several chronic degenerative diseases. Our study is aimed at assessing the antioxidant and anti-inflammatory activity of hydroalcoholic extracts obtained from wheat and its derivatives. Methods: The content of total phenolic and total flavonoid compounds and antioxidant activity were carried out by ABTS and DPPH assays. The ability of wheat extracts to promote microglia polarization towards an anti-inflammatory phenotype was evaluated analyzing the increased expression of anti-inflammatory markers by real-time qPCR and immunofluorescence assays. Antioxidant activity of all the extracts was evaluated in C. elegans by analyzing ROS levels and the expression of the antioxidant enzymes GST-4 and SOD-3 by real-time qPCR and fluorescence experiments. The expression of key genes involved in the innate immune response and stress resistance pathways—daf-16, sek-1, and pmk-1—was evaluated by real-time qPCR. Results: Wheat extracts showed the ability to polarize microglia cells towards an anti-inflammatory phenotype, even after the addition of LPS. An antioxidant response was detected both in microglia and in Caenorhabditis elegans nematode, where the extracts also implemented an anti-stress resilience response and stimulated the innate immunity. Conclusions: The present study shows that wheat seeds, flour, chaff, and pasta present anti-inflammatory as well as antioxidant activities and may be considered as prospective positive health agents for the preparation of functional foods. Moreover, the valorization of by-products from agricultural and agro-industrial activities would also have significant implications in terms of circular economy. [ABSTRACT FROM AUTHOR]

Published
2025
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8. Kiwifruit Vine Decline Syndrome (KVDS) Alters Soil Enzyme Activity and Microbial Community.

Author

Bergamaschi, Valentino, Vera, Alfonso, Pirone, Lucia, Siles, José A., López-Mondéjar, Rubén, Luongo, Laura, Vitale, Salvatore, Reverberi, Massimo, Infantino, Alessandro, and Bastida, Felipe

Subjects
MICROBIAL communities, SOIL enzymology, SOIL composition, ELECTRIC conductivity, SPRING
Abstract

Kiwifruit Vine Decline Syndrome (KVDS) has become a major concern in Italy, impacting both plant health and production. This study aims to investigate how KVDS affects soil health indicators and the composition of soil microbial communities by comparing symptomatic and asymptomatic areas in two kiwifruit orchards located in Latium, Italy. Soil samples were collected during both spring and autumn to assess seasonal variations in soil physicochemical properties, enzyme activities, and microbial biomass. The results reveal that KVDS influences several soil properties, including pH, electrical conductivity, and the contents of water-soluble carbon and nitrogen. However, these effects varied between orchards and across different seasons. Additionally, KVDS significantly impacts soil enzyme activities and microbial biomass, as assessed through the phospholipid fatty acid (PLFA) analysis, particularly showing an increase in fungal biomass in symptomatic areas. Metabarcoding further demonstrates that microbial communities differ between symptomatic and asymptomatic soils, exhibiting notable shifts in both diversity and relative abundance. Our findings emphasise the complex interactions between plants, soil, and microbial communities in relation to KVDS. This suggests that the syndrome is multifactorial and likely linked to an imbalance in soil microbial communities at the rhizosphere level, which can negatively affect soil health. [ABSTRACT FROM AUTHOR]

Published
2024
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9. An Evaluation of Organic Biostimulants as a Tool for the Sustainable Management of Viral Infections in Zucchini Plants.

Author

Corrado, Carla Libia, Donati, Livia, Taglienti, Anna, Ferretti, Luca, Faggioli, Francesco, Reverberi, Massimo, and Bertin, Sabrina

Subjects
SUSTAINABILITY, MOSAIC viruses, INTEGRATED pest control, VIRUS diseases, PLANT viruses
Abstract

In agriculture, new and sustainable strategies are increasingly demanded to integrate the traditional management of viral diseases based on the use of virus-free propagation materials and resistant or tolerant cultivars and on the control of insect vectors. Among the possible Integrated Pest Management (IPM) approaches, organic biostimulants have shown promising results in enhancing plant tolerance to virus infections by improving plant fitness and productivity and modulating metabolic functions. In this study, the combination of two organic biostimulants, Alert D-Max and Resil EVO Q, composed of seaweed and alfalfa extracts, enzymatic hydrolysates, and micronized zeolite, was applied on the leaves and roots of zucchini squashes, both healthy and infected by zucchini yellow mosaic virus (ZYMV). Four applications were scheduled based on ZYMV inoculation timing, and plant vegetative and reproductive parameters were recorded along with the virus titre and symptom severity. The modulation of the expression of specific genes potentially involved in pattern-triggered immunity (PTI), systemic acquired resistance (SAR), and oxidative stress defence pathways was also investigated. Besides increasing the general fitness of the healthy plants, the biostimulants significantly improved the production of flowers and fruits of the infected plants, with a potential positive impact on their productivity. The repeated biostimulant applications also led to a one-tenth reduction in ZYMV titre over time and induced a progressive slowdown of symptom severity. Genes associated with SAR and PTI were up-regulated after biostimulant applications, suggesting the biostimulant-based priming of plant defence mechanisms. Due to the observed beneficial effects, the tested biostimulant mix can be an effective component of the IPM of cucurbit crops, acting as a sustainable practice for enhancing plant fitness and tolerance to potyviruses. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Long-term monitoring of the hypogeal Etruscan Tomba degli Scudi, Tarquinia, Italy. Early detection of black spots, investigation of fungal community, and evaluation of their biodeterioration potential.

Author

Kratter, Matilde, Beccaccioli, Marzia, Vassallo, Ylenia, Benedetti, Francesca, La Penna, Giancarlo, Proietti, Anacleto, Zanellato, Gianluca, Faino, Luigi, Cirigliano, Angela, Neisje de Kruif, Fiona, Tomassetti, Maria Cristina, Rossi, Marco, Reverberi, Massimo, Quagliariello, Andrea, and Rinaldi, Teresa

Subjects
AESTHETICS, MICROBIAL ecology, CULTURAL property, MURAL art, BIODEGRADATION, FUNGAL communities
Abstract

Aims Hypogeal environments with cultural heritage interest pose a real challenge for their preservation and conservation. The ancient Etruscan Necropolis of Tarquinia, Italy, consists of 200 tombs decorated with extraordinary mural paintings, of great artistic and historical value. Since the beginning of the restoration campaign in 2016, a regular microbiological survey has been performed in the Tomba degli Scudi. The aim of this study was to investigate the nature of an expansion of black spots on the pictorial layers recently observed. Methods and results To determine the origin of the black spots in the atrium chamber of the Tomba degli Scudi, the fungal community was sampled using various techniques: cellulose discs, swabs, and nylon membranes and investigated by a multi-analytical approach. The obtained results suggest that the identified fungal strains (e.g. Gliomastix murorum and Pseudogymnoascus pannorum) are common to many subterranean environments around the world, such as Lascaux cave. Conclusions The continuous and long-term monitoring made it possible to detect alterations at an early stage and assess the harmfulness of different fungal strains. This work is a demonstration of the effectiveness of prevention and monitoring actions within these fragile and valuable environments. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Diplodia seriata Isolated from Declining Olive Trees in Salento (Apulia, Italy): Pathogenicity Trials Give a Glimpse That It Is More Virulent to Drought-Stressed Olive Trees and in a Warmth-Conditioned Environment.

Author

Manetti, Giuliano, Brunetti, Angela, Sciarroni, Lorenzo, Lumia, Valentina, Bechini, Sara, Marangi, Paolo, Reverberi, Massimo, Scortichini, Marco, and Pilotti, Massimo

Subjects
OLIVE, XYLELLA fastidiosa, RAINFALL, BOTRYOSPHAERIACEAE, DIEBACK
Abstract

The fungi Botryosphaeriaceae are involved in olive declines in both the world hemispheres and in all continents where this species is cultivated. In Salento (Apulia, Italy), the Botryosphaeriaceae Neofusicoccum mediterraneum and N. stellenboschiana have been reported as the agents of a branch and twig dieback that overlaps with olive quick decline syndrome caused by Xylella fastidiosa subsp. pauca. In this study, we report the finding of Diplodia seriata, another Botryosphaeriaceae species, in Salento in Xylella fastidiosa-infected olive trees affected by symptoms of branch and twig dieback. Given that its presence was also reported in olive in the Americas and in Europe (Croatia) with different degrees of virulence, we were prompted to assess its role in the Apulian decline. We identified representative isolates based on morphological features and a multilocus phylogeny. In vitro tests showed that the optimum growth temperature of the isolates is around 25–30 °C, and that they are highly thermo-tolerant. In pathogenicity trials conducted over eleven months, D. seriata expressed a very low virulence. Nonetheless, when we imposed severe water stress before the inoculation, D. seriata significatively necrotized bark and wood in a time frame of 35 days. Moreover, the symptoms which resulted were much more severe in the trial performed in summer compared with that in autumn. In osmolyte-supplemented media with a water potential from −1 to −3 Mpa, the isolates increased or maintained their growth rate compared with non-supplemented media, and they also grew, albeit to a lesser extent, on media with a water potential as low as −7 Mpa. This suggests that olives with a low water potential, namely those subjected to drought, may offer a suitable environment for the fungus' development. The analysis of the meteorological parameters, temperatures and rainfall, in Salento in the timeframe 1989–2023, showed that this area is subjected to a progressive increase of temperature and drought during the summer. Thus, overall, D. seriata has to be considered a contributor to the manifestation of branch and twig dieback of olive in Salento. Coherently with the spiral decline concept of trees, our results suggest that heat and drought act as predisposing/inciting factors facilitating D. seriata as a contributor. The fact that several adverse factors, biotic and abiotic, are simultaneously burdening olive trees in Salento offers a cue to discuss the possible complex nature of the olive decline in Salento. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Assessment of Fatty Acid and Oxylipin Profile of Resprouting Olive Trees Positive to Xylella fastidiosa subsp. pauca in Salento (Apulia, Italy).

Author

Scala, Valeria, Scortichini, Marco, Marini, Federico, La Montagna, Dario, Beccaccioli, Marzia, Micalizzi, Kristina, Cacciotti, Andrea, Pucci, Nicoletta, Tatulli, Giuseppe, Fiorani, Riccardo, Loreti, Stefania, and Reverberi, Massimo

Subjects
NORMALIZED difference vegetation index, FREE fatty acids, XYLELLA fastidiosa, SALICYLIC acid, REMOTE-sensing images
Abstract

Xylella fastidiosa subsp. pauca ST53 (XFP), the causal agent of olive quick decline syndrome (OQDS), was thoroughly investigated after a 2013 outbreak in the Salento region of Southern Italy. Some trees from Ogliarola Salentina and Cellina di Nardò, susceptible cultivars in the Gallipoli area, the first XFP infection hotspot in Italy, have resprouted crowns and are starting to flower and yield fruits. Satellite imagery and Normalized Difference Vegetation Index analyses revealed a significant improvement in vegetation health and productivity from 2018 to 2022 of these trees. Lipid molecules have long been recognized as plant defense modulators, and recently, we investigated their role in XFP-positive hosts and in XFP-resistant as well as in XFP-susceptible cultivars of olive trees. Here, we present a case study regarding 36 olive trees (12 XFP-positive resprouting, 12 XFP-positive OQDS-symptomatic, and 12 XFP-negative trees) harvested in 2022 within the area where XFP struck first, killing millions of trees in a decade. These trees were analyzed for some free fatty acid, oxylipin, and plant hormones, in particular jasmonic and salicylic acid, by targeted LC-MS/MS. Multivariate analysis revealed that lipid markers of resistance (e.g., 13-HpOTrE), along with jasmonic and salicylic acid, were accumulated differently in the XFP-positive resprouting trees from both cultivars with respect to XFP-positive OQDS symptomatic and XFP-negative trees, suggesting a correlation of lipid metabolism with the resprouting, which can be an indication of the resiliency of these trees to OQDS. This is the first report concerning the resprouting of OQDS-infected olive trees in the Salento area. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Biocontrol of Occurrence Ochratoxin A in Wine: A Review.

Author

Zjalic, Slaven, Markov, Ksenija, Loncar, Jelena, Jakopovic, Zeljko, Beccaccioli, Marzia, and Reverberi, Massimo

Subjects
POISONS, WINES, WINE districts, ECONOMIC sectors, VITICULTURE, RED wines
Abstract

Viticulture has been an important economic sector for centuries. In recent decades, global wine production has fluctuated between 250 and almost 300 million hectoliters, and in 2022, the value of wine exports reached EUR 37.6 billion. Climate change and the associated higher temperatures could favor the occurrence of ochratoxin A (OTA) in wine. OTA is a mycotoxin produced by some species of the genera Aspergillus and Penicillium and has nephrotoxic, immunotoxic, teratogenic, hepatotoxic, and carcinogenic effects on animals and humans. The presence of this toxin in wine is related to the type of wine—red wines are more frequently contaminated with OTA—and the geographical location of the vineyard. In Europe, the lower the latitude, the greater the risk of OTA contamination in wine. However, climate change could increase the risk of OTA contamination in wine in other regions. Due to their toxic effects, the development of effective and environmentally friendly methods to prevent, decontaminate, and degrade OTA is essential. This review summarises the available research on biological aspects of OTA prevention, removal, and degradation. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Biogenic calcium carbonate as evidence for life.

Author

Ronca, Sara, Mura, Francesco, Brandano, Marco, Cirigliano, Angela, Benedetti, Francesca, Grottoli, Alessandro, Reverberi, Massimo, Maras, Daniele Federico, Negri, Rodolfo, Di Mauro, Ernesto, and Rinaldi, Teresa

Subjects
BACTERIAL metabolism, BACTERIAL communities, MICROBIAL communities, IRON Age, CALCIUM carbonate, CALCITE, BIOGENIC amines
Abstract

The history of the Earth is a story of the co-evolution of minerals and microbes: not only have numerous rocks arisen from life but also life itself may have formed from rocks. To understand the strong association between microbes and inorganic substrates, we investigated the moonmilk, a calcium carbonate deposit of possible microbial origin, occurring in the Iron Age Etruscan necropolis of Tarquinia, in Italy. These tombs provide a unique environment where the hypogeal walls of the tombs are covered by this speleothem. To study moonmilk formation, we investigated the bacterial community in the rock in which the tombs were carved: calcarenite and hybrid sandstone. We present the first evidence that moonmilk precipitation is driven by microbes within the rocks and not only on the rock surfaces. We also describe how the moonmilk produced within the rocks contributes to rock formation and evolution. The microbial communities of the calcarenite and hybrid sandstone displayed, at the phylum level, the same microbial pattern of the moonmilk sampled from the walls of the hypogeal tombs, suggesting that the moonmilk originates from the metabolism of an endolytic bacterial community. The calcite moonmilk is the only known carbonate speleothem on Earth with undoubted biogenic origin, thus representing a robust and credible biosignature of life. Its presence in the inner parts of rocks adds to its characteristics as a biosignature. [ABSTRACT FROM AUTHOR]

Published
2023
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22. Analysis of Italian isolates of Pantoea stewartii subsp. stewartii and development of a real-time PCR-based diagnostic method.

Author

Scala, Valeria, Faino, Luigi, Costantini, Francesca, Crosara, Valeria, Albanese, Alessio, Pucci, Nicoletta, Reverberi, Massimo, and Loreti, Stefania

Subjects
SERODIAGNOSIS, GENOMICS, CROP losses, SEED industry, ENDEMIC diseases, BACTERIAL wilt diseases, CORN seeds
Abstract

Pantoea stewartii subsp. stewartii (Pss) causes Stewart's vascular wilt of maize, and it is responsible for serious crop losses. Pss is indigenous to North America and spreads with maize seeds. The presence of Pss has been notified in Italy since 2015. The risk assessment of the entry of Pss in the EU from the United States through seed trade is in the order of magnitude of hundred introductions per year. Several molecular or serological tests were developed for the detection of Pss and used as official analysis for the certification of commercial seeds. However, some of these tests lack adequate specificity, not allowing to correctly discriminate Pss from P. stewartii subsp. indologenes (Psi). Psi is occasionally present in maize seeds and is avirulent for maize. In this study, several Italian isolates of Pss recovered in 2015 and 2018 have been characterized by molecular, biochemical, and pathogenicity tests; moreover, their genomes have been assembled through MinION and Illumina--sequencing procedures. Genomic analysis reveals multiple introgression events. Exploiting these results, a new primer combination has been defined and verified by real-time PCR, allowing the development of a specific molecular test able to detect the presence of Pss down to the concentration of 103 CFU/ml in spiked samples of maize seed extracts. Due to the high analytical sensitivity and specificity achieved with this test, the detection of Pss has been improved disentangling the inconclusive results in Pss maize seed diagnosis, overcoming its misidentification in place of Psi. Altogether, this test addresses the critical issue associated with maize seeds imported from regions where Stewart's disease is endemic. [ABSTRACT FROM AUTHOR]

Published
2023
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23. The Neolithic site “La Marmotta”: DNA metabarcoding to identify the microbial deterioration of waterlogged archeological wood.

Author

Beccaccioli, Marzia, Moricca, Claudia, Faino, Luigi, Reale, Rita, Mineo, Mario, and Reverberi, Massimo

Subjects
WOOD, WOOD decay, GENETIC barcoding, BIODEGRADATION, NEOLITHIC Period, WOOD-decaying fungi
Abstract

Introduction: The evaluation of biological degradation of waterlogged archeological wood is crucial to choose the conservative and protective treatments to be applied to the wooden material. The waterlogged environmental conditions are characterized by oxygen scarcity, only allowing the growth of adapted microbes capable to degrade the organic wooden material, mainly erosion bacteria and softrot fungi. In this work, we characterized and evaluated the biodegradation state and the microbial communities of wooden fragments preserved in storage tanks. These were preserved by waterlogging within the Neolithic village “La Marmotta,” currently found under the Bracciano Lake (Lazio, Italy). Methods: The waterlogged wood samples were first identified taxonomically with an optical microscope, also allowing an evaluation of their preservation state. The microbial community was then evaluated through the sequencing of Internal Transcribed Spacer sequences for fungi and 16S for bacteria with the Oxford Nanopore Technologies (ONT) MinION platform. Results: The identified microbial community appears to be consistent with the waterlogged samples, as many bacteria attributable to the erosion of wood and ligninolytic fungi have been sequenced. Discussion: The reported results highlight the first use of targeted metabarcoding by ONT applied to study the biodeterioration of waterlogged archeological wood. [ABSTRACT FROM AUTHOR]

Published
2023
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24. The Effect of Mushroom Culture Filtrates on the Inhibition of Mycotoxins Produced by Aspergillus flavus and Aspergillus carbonarius.

Author

Loncar, Jelena, Bellich, Barbara, Cescutti, Paola, Motola, Alice, Beccaccioli, Marzia, Zjalic, Slaven, and Reverberi, Massimo

Subjects
MUSHROOM culture, ASPERGILLUS flavus, AFLATOXINS, TRAMETES versicolor, MYCOTOXINS, POLYSACCHARIDES, METABOLITES, BIOSYNTHESIS
Abstract

Two of the mycotoxins of greatest agroeconomic significance are aflatoxin B1 (AFB1), and ochratoxin A (OTA). It has been reported that extracts from some wood-decaying mushrooms, such as Lentinula edodes and Trametes versicolor showed the ability to inhibit AFB1 or OTA biosynthesis. Therefore, in our study, a wide screening of 42 isolates of different ligninolytic mushrooms was assayed for their ability to inhibit the synthesis of OTA in Aspergillus carbonarius and AFB1 in Aspergillus flavus, in order to find a metabolite that can simultaneously inhibit both mycotoxins. The results showed that four isolates produce metabolites able to inhibit the synthesis of OTA, and 11 isolates produced metabolites that inhibited AFB1 by >50%. Two strains, the Trametes versicolor strain TV117 and the Schizophyllum commune strain S.C. Ailanto, produced metabolites able to significantly inhibit (>90%) the synthesis of both mycotoxins. Preliminary results suggest that the mechanism of efficacy of the S. commune rough and semipurified polysaccharides could be analogous to that found previously for Tramesan®, by enhancing the antioxidant response in the target fungal cells. The overall results indicate that S. commune's polysaccharide(s) could be a potential agent(s) in biological control and/or a useful component of the integrated strategies able to control mycotoxin synthesis. [ABSTRACT FROM AUTHOR]

Published
2023
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25. Identification and Characterization ofNeofusicoccumstellenboschiana in Branch and Twig Dieback-Affected Olive Trees in Italy and Comparative Pathogenicity with N. mediterraneum.

Author

Manetti, Giuliano, Brunetti, Angela, Lumia, Valentina, Sciarroni, Lorenzo, Marangi, Paolo, Cristella, Nicola, Faggioli, Francesco, Reverberi, Massimo, Scortichini, Marco, and Pilotti, Massimo

Subjects
OLIVE, XYLELLA fastidiosa, TWIGS, SPRING, WOOD, SUMMER
Abstract

For about a decade, olive groves in Apulia (Southern Italy) have been progressively destroyed by Olive Quick Decline Syndrome (OQDS), a disease caused by the bacterium Xylella fastidiosa subsp. pauca (Xfp). Recently, we described an additional wilting syndrome affecting olive trees in that area. The botryosphaeriaceous fungus Neofusicoccum mediterraneum was found associated with the diseased trees, and its high virulence toward olive trees was demonstrated. Given the common features with Branch and Twig Dieback (BTD) of olive tree, occurring in Spain and California, we suggested that the observed syndrome was BTD. During our first survey, we also found a botryosphaeriaceous species other than N. mediterraneum. In the present article, we report the morphological and molecular characterization of this fungal species which we identified as Neofusicoccum stellenboschiana. In the study, we also included for comparison additional N. stellenboschiana isolates obtained from olive trees in Latium and Tuscany region (Central Italy). The occurrence of N. stellenboschiana in olive trees is reported here for the first time in the northern hemisphere. The pathogenicity and virulence were tested in nine inoculation trials, where the Apulian N. stellenboschiana isolate was compared with the isolate from Latium and with the Apulian isolate of N. mediterraneum. Both isolates of N. stellenboschiana proved pathogenic to olive trees. They caused evident bark canker and wood discolouration when inoculated at the base of the stem of two/three-year-old trees and on one-year-old twigs. However, virulence of N. stellenboschiana was significantly lower, though still remarkable, compared with N. mediterraneum in term of necrosis progression in the bark and the wood and capacity of wilting the twigs. Virulence of N. stellenboschiana and N. mediterraneum did not substantially change when inoculations were performed in spring/summer and in autumn, suggesting that these fungal species have the potential to infect and damage olive trees in all seasons. The high thermotolerance of N. stellenboschiana was also revealed with in vitro growth and survival tests. The high virulence of these Botryosphaeriaceae species highlights their contribution in BTD aetiology and the necessity to investigate right away their diffusion and, possibly, the role of additional factors other than Xfp in the general decline of olive groves in Apulia. Hence the importance of assessing the degree of overlap of BTD/Botryosphariaceae with OQDS/Xfp is discussed. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Sustainable Use of Citrus Waste as Organic Amendment in Orange Orchards.

Author

Consoli, Simona, Caggia, Cinzia, Russo, Nunziatina, Randazzo, Cinzia Lucia, Continella, Alberto, Modica, Giulia, Cacciola, Santa Olga, Faino, Luigi, Reverberi, Massimo, Baglieri, Andrea, Puglisi, Ivana, Milani, Mirco, Longo Minnolo, Giuseppe, and Barbagallo, Salvatore

Abstract

The use of citrus waste (peel, CW) as organic fertilizer was investigated on soil microbiota and on soil physico-chemical and hydraulic characteristics. The biotic components on CW and the effect on nutritional status, leaf chlorophyll content, fruit set and production of "Tarocco" orange trees were also identified. The citrus waste was supplied to an experimental orchard at different doses: 45 kg m−2 (with and without Ca(OH)2 addition) and 90 kg m−2. The study was conducted in three consecutive years (2015–2017) on 20-year old orange trees at the experimental farm of the University of Catania (Italy). The main results of the study confirm that the use of CW as a biofertilizer offers a great opportunity for sustainable sweet orange production. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Biogenic calcium carbonate as evidence for life.

Author

Ronca, Sara, Mura, Francesco, Brandano, Marco, Cirigliano, Angela, Grottoli, Alessandro, Reverberi, Massimo, Maras, Danile Federico, Negri, Rodolfo, Di Mauro, Ernesto, and Rinaldi, Teresa

Subjects
BACTERIAL metabolism, CALCIUM carbonate, BACTERIAL communities, MICROBIAL communities, IRON Age, CALCITE
Abstract

The history of Earth is a story of co-evolution of minerals and microbes: not only numerous rocks arisen from life, but the life itself may have formed from rocks. To understand the strong association between microbes and inorganic substrates, we investigated the moonmilk, a speleothem of calcium carbonate of microbial origin, present in the Iron Age Etruscan Necropolis of Tarquinia, in Italy. These tombs present a unique environment where the hypogeal walls of the tombs are covered by this speleothem. To study moonmilk formation, we investigated the bacterial community in the rock in which the tombs are carved: calcarenite and hybrid sandstone. We present the first evidence that moonmilk precipitation is driven by microbes within the rocks and not only on the rock surfaces. We also describe how the moonmilk produced within the rocks contributes to rock formation and evolution. The microbial communities of the calcarenite and hybrid sandstone displayed, at phylum level, the same microbial pattern of the moonmilk sampled from the walls of the hypogeal tombs, pointing out that the moonmilk originates from the metabolism of endolytic bacterial community. The calcite speleothem moonmilk is the only known carbonate speleothem on Earth with undoubted biogenic origin, thus representing a robust and credible biosignature of life. Its presence in the inner parts of rocks adds to its characteristics as a biosignature. [ABSTRACT FROM AUTHOR]

Published
2022
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32. Modulation of Virulence-Associated Traits in Aspergillus fumigatus by BET Inhibitor JQ1.

Author

Orekhova, Anastasia, De Angelis, Marta, Cacciotti, Andrea, Reverberi, Massimo, Rotili, Dante, Giorgi, Alessandra, Protto, Virginia, Bonincontro, Graziana, Fiorentino, Francesco, Zgoda, Victor, Mai, Antonello, Palamara, Anna Teresa, and Simonetti, Giovanna

Subjects
ASPERGILLUS fumigatus, MELANINS, GREATER wax moth, ANTIFUNGAL agents, MELANOGENESIS, SUPEROXIDE dismutase, LACCASE
Abstract

Aspergillus fumigatus is a disease-causing, opportunistic fungus that can establish infection due to its capacity to respond to a wide range of environmental conditions. Secreted proteins and metabolites, which play a critical role in fungal–host interactions and pathogenesis, are modulated by epigenetic players, such as bromodomain and extraterminal domain (BET) proteins. In this study, we evaluated the in vitro and in vivo capability of the BET inhibitor JQ1 to modulate the extracellular proteins and virulence of A. fumigatus. The abundance of 25 of the 76 extracellular proteins identified through LC-MS/MS proteomic analysis changed following JQ1 treatment. Among them, a ribonuclease, a chitinase, and a superoxide dismutase were dramatically downregulated. Moreover, the proteomic analysis of A. fumigatus intracellular proteins indicated that Abr2, an intracellular laccase involved in the last step of melanin synthesis, was absent in the JQ1-treated group. To investigate at which level this downregulation occurred and considering the ability of JQ1 to modulate gene expression we checked the level of ABR2, Chitinase, and Superoxide dismutase mRNA expression by qRT-PCR. Finally, the capacity of JQ1 to reduce the virulence of A. fumigatus has been proved using Galleria mellonella larvae, which are an in vivo model to evaluate fungal virulence. Overall, the promising activity exhibited by JQ1 suggests that A. fumigatus is sensitive to BET inhibition and BET proteins may be a viable target for developing antifungal agents. [ABSTRACT FROM AUTHOR]

Published
2022
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33. Fungal and bacterial oxylipins are signals for intra- and inter-cellular communication within plant disease.

Author

Beccaccioli, Marzia, Pucci, Nicoletta, Salustri, Manuel, Scortichini, Marco, Zaccaria, Marco, Momeni, Babak, Loreti, Stefania, Reverberi, Massimo, and Sca, Valeria

Subjects
OXYLIPINS, PLANT diseases, FREE fatty acids, DIOXYGENASES, LINOLENIC acids, PLANT-pathogen relationships
Abstract

Lipids are central at various stages of host-pathogen interactions in determining virulence and modulating plant defense. Free fatty acids may act as substrates for oxidizing enzymes [e.g., lipoxygenases (LOXs) and dioxygenases (DOXs)] that synthesize oxylipins. Fatty acids and oxylipins function as modulators of several pathways in cell-to-cell communication; their structural similarity among plant, fungal, and bacterial taxa suggests potential in cross-kingdom communication. We provide a prospect of the known role of fatty acids and oxylipins in fungi and bacteria during plant-pathogen interactions. In the pathogens, oxylipin-mediated signaling pathways are crucial both in development and host infection. Here, we report on case studies suggesting that oxylipins derived from oleic, linoleic, and linolenic acids are crucial in modulating the pathogenic lifestyle in the host plant. Intriguingly, overlapping (fungi-plant/bacteria-plant) results suggest that different inter-kingdom pathosystems use similar lipid signals to reshape the lifestyle of the contenders and occasionally determine the outcome of the challenge. [ABSTRACT FROM AUTHOR]

Published
2022
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35. Mass Spectrometry-Based Targeted Lipidomics and Supervised Machine Learning Algorithms in Detecting Disease, Cultivar, and Treatment Biomarkers in Xylella fastidiosa subsp. pauca -Infected Olive Trees.

Author

Scala, Valeria, Salustri, Manuel, Loreti, Stefania, Pucci, Nicoletta, Cacciotti, Andrea, Tatulli, Giuseppe, Scortichini, Marco, and Reverberi, Massimo

Subjects
SUPERVISED learning, XYLELLA fastidiosa, MACHINE learning, LIPIDOMICS, FATTY acid oxidation, CULTIVARS, OLIVE, TITERS
Abstract

In 2013, Xylella fastidiosa (Xf) was detected for the first time in Apulia and, subsequently, recognized as the causal agent of the olive quick decline syndrome (OQDS). To contain the disease, the olive germplasm was evaluated for resistance to Xf , identifying cultivars with different susceptibility to the pathogen. Regarding this, the resistant cultivar Leccino has generally a lower bacterial titer compared with the susceptible cultivar Ogliarola salentina. Among biomolecules, lipids could have a pivotal role in the interaction of Xf with its host. In the grapevine Pierce's disease, fatty acid molecules, the diffusible signaling factors (DSFs), act as regulators of Xf lifestyle and are crucial for its virulence. Other lipid compounds derived from fatty acid oxidation, namely, oxylipins, can affect, in vitro , biofilm formation in Xf subsp. pauca (Xfp) strain De Donno, that is, the strain causing OQDS. In this study, we combined high-performance liquid chromatography-mass spectrometry-MS-based targeted lipidomics with supervised learning algorithms (random forest, support vector machine, and neural networks) to classify olive tree samples from Salento. The dataset included samples from either OQDS-positive or OQDS-negative olive trees belonging either to cultivar Ogliarola salentina or Leccino treated or not with the zinc-copper-citric acid biocomplex Dentamet®. We built classifiers using the relative differences in lipid species able to discriminate olive tree samples, namely, (1) infected and non-infected, (2) belonging to different cultivars, and (3) treated or untreated with Dentamet®. Lipid entities emerging as predictors of the thesis are free fatty acids (C16:1, C18:1, C18:2, C18:3); the LOX-derived oxylipins 9- and 13-HPOD/TrE; the DOX-derived oxylipin 10-HPOME; and diacylglyceride DAG36:4(18:1/18:3). [ABSTRACT FROM AUTHOR]

Published
2022
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36. The first report of truffles (Tuber aestivum Vittad.) in Zadar County

Author

Zjalić, Slaven, Scapari, Marzia, Čuka, Anica, Šikić, Zoran, and Reverberi, Massimo

Subjects
truffles, Tuber aestivum Vittad, Zadar County, tartufi, Zadarska županija, tartufi, Tuber aestivum Vittad., Zadarska županija
Abstract

Tartufi (rod Tuber) su jedne od najcjenjenijih gljiva u gastronomiji. Zbog njihova posebnog okusa i ograničene dostupnosti, cijene tih podzemnih gljiva su iznimno visoke. U Istri se nalaze najvažnije zone pronalaska gljiva iz roda Tuber na prostoru Hrvatske. Već sedam – osam desetljeća šire se usmene predaje o postojanju tartufa na prostoru Zadarske županije, no dosad nije dokumentiran njihov pronalazak. U okviru ovoga istraživanja tartufi su traženi na različitim lokacijama u Zadarskoj županiji, a nakon što su pronađeni identificiranje je provedeno molekularnom analizom. Rezultati su nedvojbeno pokazali da je ljetni tartuf, Tuber aestivum Vittad., prisutan na području Zadarske županije., True truffles (Tuber spp.) are among the most appreciated mushroom in gastronomy. Due to their particular taste and limited natural availability the price of these underground mushrooms is high. In Croatia, the most important presence of Tuber spp. was reported in Istria. Since seven to eight decades ago there have been stories of Zadar’s truffles which are transmitted orally from generation to generation but, till now, no written document that could confirm it has been found. In this study, truffles were searched for on different locations in Zadar County, the presumed truffles were harvested and molecular analyses were performed to identify them. The results undoubtedly show that the summer truffle, Tuber aestivum Vittad. is present in Zadar County.

Published
2020

37. Draft Genome Sequence of a New Fusarium Isolate Belonging to Fusarium tricinctum Species Complex Collected From Hazelnut in Central Italy.

Author

Turco, Silvia, Grottoli, Alessandro, Drais, Mounira Inas, De Spirito, Carlo, Faino, Luigi, Reverberi, Massimo, Cristofori, Valerio, and Mazzaglia, Angelo

Subjects
HAZELNUTS, HAZEL, NUTS, FUSARIUM, SPECIES, COMPARATIVE genomics, NUCLEOTIDE sequencing
Abstract

In summer 2019, during a survey on the health status of a hazelnut orchard located in the Tuscia area (the province of Viterbo, Latium, Italy), nuts showing symptoms, such as brown-grayish spots at the bottom of the nuts progressing upward to the apex, and necrotic patches on the bracts and, sometimes, on the petioles, were found and collected for further studies. This syndrome is associated with the nut gray necrosis (NGN), whose main causal agent is Fusarium lateritium. Aiming to increase knowledge about this fungal pathogen, the whole-genome sequencing of a strain isolated from symptomatic hazelnut was performed using long Nanopore reads technology in combination with the higher precision of the Illumina reads, generating a high-quality genome assembly. The following phylogenetic and comparative genomics analysis suggested that this isolate is caused by the F. tricinctum species complex rather than F. lateritium one, as initially hypothesized. Thus, this study demonstrates that different Fusarium species can infect Corylus avellana producing the same symptomatology. In addition, it sheds light onto the genetic features of the pathogen in subject, clarifying facets about its biology, epidemiology, infection mechanisms, and host spectrum, with the future objective to develop specific and efficient control strategies. [ABSTRACT FROM AUTHOR]

Published
2021
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38. Nanopore sequencing for the detection and identification of Xylella fastidiosa subspecies and sequence types from naturally infected plant material.

Author

Faino, Luigi, Scala, Valeria, Albanese, Alessio, Modesti, Vanessa, Grottoli, Alessandro, Pucci, Nicoletta, Doddi, Andrea, L'Aurora, Alessia, Tatulli, Giuseppe, Reverberi, Massimo, and Loreti, Stefania

Subjects
XYLELLA fastidiosa, DNA sequencing, SUBSPECIES, PHYTOPATHOGENIC microorganisms, PLANT species, BACTERIAL diseases
Abstract

Xylella fastidiosa (Xf) is a gram‐negative bacterial plant pathogen that can infect over 500 plant species. While it is endemic in America, X. fastidiosa subsp. pauca was reported for the first time in Europe in 2013 on olive trees in southern Italy. The availability of fast, sensitive, and reliable diagnostic tools is indispensable for managing current and future outbreaks of Xf. In this paper, we use the OXford Nanopore Technologies (ONT) MinION platform for detecting and identifying Xf at species, subspecies, and sequence type (ST) level. Two workflows were developed: the first one provided a "shotgun" strategy, that is, exploring the possibility of detecting Xf within DNA extracted from plant samples. This allowed detection of Xf by direct DNA sequencing and identifying the subspecies only in samples with high bacterial levels. Nanopore amplicon sequencing was pursued as a second workflow. This consists of PCR amplification of a set of seven multilocus sequence typing (MLST) fragments, officially adopted for identifying Xf at type strain level, followed by Nanopore‐sequencing of the amplicons and an ad hoc pipeline to generate MLST consensus calls. This combined approach, which takes only a few hours, allowed the detection and identification of Xf at ST level in plant material with low bacterial infection. [ABSTRACT FROM AUTHOR]

Published
2021
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39. Light-Stress Response Mediated by the Transcription Factor Kl Mga2 in the Yeast Kluyveromyces lactis.

Author

Camponeschi, Ilaria, Montanari, Arianna, Beccaccioli, Marzia, Reverberi, Massimo, Mazzoni, Cristina, and Bianchi, Michele M.

Subjects
KLUYVEROMYCES marxianus, TRANSCRIPTION factors, YEAST, LIGHT sources, HYDROGEN peroxide, LACTOCOCCUS lactis, LACTOCOCCUS
Abstract

In unicellular organisms like yeasts, which do not have specialized tissues for protection against environmental challenges, the presence of cellular mechanisms to respond and adapt to stress conditions is fundamental. In this work, we aimed to investigate the response to environmental light in Kluyveromyces lactis. Yeast lacks specialized light-sensing proteins; however, Saccharomyces cerevisiae has been reported to respond to light by increasing hydrogen peroxide level and triggering nuclear translocation of Msn2. This is a stress-sensitive transcription factor also present in K. lactis. To investigate light response in this yeast, we analyzed the different phenotypes generated by the deletion of the hypoxia responsive and lipid biosynthesis transcription factor Kl Mga2. Alterations in growth rate, mitochondrial functioning, ROS metabolism, and fatty acid biosynthesis provide evidence that light was a source of stress in K. lactis and that Kl Mga2 had a role in the light-stress response. The involvement of Kl Msn2 and Kl Crz1 in light stress was also explored, but the latter showed no function in this response. [ABSTRACT FROM AUTHOR]

Published
2021
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40. The Lipoxygenase Lox1 Is Involved in Light‐ and Injury-Response, Conidiation, and Volatile Organic Compound Biosynthesis in the Mycoparasitic Fungus Trichoderma atroviride.

Author

Speckbacher, Verena, Ruzsanyi, Veronika, Martinez-Medina, Ainhoa, Hinterdobler, Wolfgang, Doppler, Maria, Schreiner, Ulrike, Böhmdorfer, Stefan, Beccaccioli, Marzia, Schuhmacher, Rainer, Reverberi, Massimo, Schmoll, Monika, and Zeilinger, Susanne

Subjects
VOLATILE organic compounds, BIOLOGICAL pest control agents, FUNGAL metabolites, TRICHODERMA, BIOSYNTHESIS, BOTRYTIS cinerea, PLANT parasites
Abstract

The necrotrophic mycoparasite Trichoderma atroviride is a biological pest control agent frequently applied in agriculture for the protection of plants against fungal phytopathogens. One of the main secondary metabolites produced by this fungus is 6-pentyl-α-pyrone (6-PP). 6-PP is an organic compound with antifungal and plant growth-promoting activities, whose biosynthesis was previously proposed to involve a lipoxygenase (Lox). In this study, we investigated the role of the single lipoxygenase-encoding gene lox1 encoded in the T. atroviride genome by targeted gene deletion. We found that light inhibits 6-PP biosynthesis but lox1 is dispensable for 6-PP production as well as for the ability of T. atroviride to parasitize and antagonize host fungi. However, we found Lox1 to be involved in T. atroviride conidiation in darkness, in injury-response, in the production of several metabolites, including oxylipins and volatile organic compounds, as well as in the induction of systemic resistance against the plant-pathogenic fungus Botrytis cinerea in Arabidopsis thaliana plants. Our findings give novel insights into the roles of a fungal Ile-group lipoxygenase and expand the understanding of a light-dependent role of these enzymes. [ABSTRACT FROM AUTHOR]

Published
2020
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41. Xylella fastidiosa subsp. pauca and olive produced lipids moderate the switch adhesive versus non-adhesive state and viceversa.

Author

Scala, Valeria, Pucci, Nicoletta, Salustri, Manuel, Modesti, Vanessa, L'Aurora, Alessia, Scortichini, Marco, Zaccaria, Marco, Momeni, Babak, Reverberi, Massimo, and Loreti, Stefania

Subjects
XYLELLA fastidiosa, OLIVE, PHYTOPATHOGENIC microorganisms, LIPIDS, CLIMATE change, QUORUM sensing, OLIVE oil
Abstract

Global trade and climate change are re-shaping the distribution map of pandemic pathogens. One major emerging concern is Xylella fastidiosa, a tropical bacterium recently introduced into Europe from America. In last decades, X. fastidiosa was detected in several European countries. X. fastidiosa is an insect vector-transmitted bacterial plant pathogen associated with severe diseases in a wide range of hosts. X. fastidiosa through a tight coordination of the adherent biofilm and the planktonic states, invades the host systemically. The planktonic phase is correlated to low cell density and vessel colonization. Increase in cell density triggers a quorum sensing system based on mixture of cis 2-enoic fatty acids—diffusible signalling factors (DSF) that promote stickiness and biofilm. The lipidome profile of Olea europaea L. (cv. Ogliarola salentina) samples, collected in groves located in infected zones and uninfected zones was performed. The untargeted analysis of the lipid profiles of Olive Quick Decline Syndrome (OQDS) positive (+) and negative (-) plants showed a clustering of OQDS+ plants apart from OQDS-. The targeted lipids profile of plants OQDS+ and OQDS- identified a shortlist of 10 lipids that increase their amount in OQDS+ and X. fastidiosa positive olive trees. These lipid entities, provided to X. fastidiosa subsp. pauca pure culture, impact on the dual phase, e.g. planktonic ↔ biofilm. This study provides novel insights on OQDS lipid hallmarks and on molecules that might modulate biofilm phase in X. fastidiosa subsp. pauca. [ABSTRACT FROM AUTHOR]

Published
2020
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42. PRVA POTVRDA O PRISUTNOSTI TARTUFA (TUBER AESTIVUM VITTAD.) U ZADARSKOJ ŽUPANIJI.

Author

ZJALIĆ, SLAVEN, SCAPARI, MARZIA, ČUKA, ANICA, ŠIKIĆ, ZORAN, and REVERBERI, MASSIMO

Subjects
TRUFFLES, MUSHROOMS, GASTRONOMY, SUMMER, COUNTIES, TUBERS
Abstract

Copyright of Geoadria is the property of Geoadria and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2020
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44. Buckwheat Hull Extracts Inhibit Aspergillus flavus Growth and AFB1 Biosynthesis.

Author

Nobili, Chiara, De Acutis, Agnese, Reverberi, Massimo, Bello, Cristiano, Leone, Gian Paolo, Palumbo, Domenico, Natella, Fausta, Procacci, Silvia, Zjalic, Slaven, and Brunori, Andrea

Subjects
ASPERGILLUS flavus, RICE hulls, BUCKWHEAT, BIOSYNTHESIS, PHYTOPATHOGENIC microorganisms, FUNGAL growth, MANUFACTURING processes, EXTRACTS
Abstract

Fungal contamination poses at risk the whole food production chain - from farm to fork - with potential negative impact on human health. So far, the insurgence of pathogens has been restrained by the use of chemical compounds, whose residues have gradually accumulated determining toxic effects in the environment. Modern innovative techniques imply the use of natural and eco-sustainable bioactive plant molecules as pathogens and pests-control agents. These may be profitably recovered in large amounts at the end of industrial milling processes. This is the case of the non-digestible hull of common buckwheat (Fagopyrum esculentum Moench), a natural source of polyphenols, tocopherols, phytosterols and fatty acids. We extract these compounds from the hull of buckwheat; apply them to Aspergillus flavus - aflatoxin producer - under in vitro conditions, checking their ability to inhibit fungal growth and aflatoxin biosynthesis. Moreover, a solvent free method implying the adoption of supercritical CO2 as solvent was set up to extract lipophilic molecules from the buckwheat' hulls. Positive results in controlling fungal growth and aflatoxin biosynthesis let infer that the extracts could be further tested also under in vivo conditions. [ABSTRACT FROM AUTHOR]

Published
2019
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45. HPLC and NMR analysis of the phenyl-ethanoid glycosides pattern of Verbascum thapsus L. cultivated in the Etnean area.

Author

Frezza, Claudio, Bianco, Armandodoriano, Serafini, Mauro, Foddai, Sebastiano, Salustri, Manuel, Reverberi, Massimo, Gelardi, Luca, Bonina, Andrea, and Bonina, Francesco Paolo

Subjects
GLYCOSIDES, MULLEINS, HIGH performance liquid chromatography, CULTIVATED plants, CHEMOTAXONOMY
Abstract

In this work the HPLC and NMR analysis of the phenyl-ethanoid glycosides (PhGs) pattern of a cultivated exemplar of Verbascum thapsus L. (Scrophulariaceae) from the Etnean area (Sicily, Italy) was performed in order to verify their possible presence. Wild V. thapsus is well-known in ethnopharmacology due to the several beneficial effects that it is able to exert and which are primarily due to these compounds. So, it's extremely important that also cultivated exemplars of this species biosynthesize them in order to maintain their pharmacological properties. This study revealed the presence of seven PhGs in an unusual novel pattern. Thus, this exemplar is a very good potential source of this class of natural products and may be employed for several beneficial ethnopharmacological purposes. [ABSTRACT FROM AUTHOR]

Published
2019
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46. Genotypic and phenotypic versatility of Aspergillus flavus during maize exploitation

Author

Reverberi, Massimo, Marta, Punelli, Scala, Valeria, Scarpari, Marzia, Paolo, Uva, Mentzen, Wieslawa I., Dolezal, Andrea L., Charles, Woloshuk, Flavia, Pinzari, Fabbri, Anna Adele, Fanelli, Corrado, Payne, Gary A., and Jae Hyuk Yu

Subjects
Applied Microbiology, Fungal Physiology, lcsh:Medicine, Aspergillus flavus, Pathogenesis, Conidium, Transcriptomes, Plant Microbiology, Aflatoxins, Gene Expression Regulation, Fungal, Microbial Physiology, Cluster Analysis, lcsh:Science, skin and connective tissue diseases, Promoter Regions, Genetic, Fungal Biochemistry, Multidisciplinary, biology, Gene Ontologies, Systems Biology, Fungal genetics, Microbial Growth and Development, Genomics, Functional Genomics, Host-Pathogen Interaction, Phenotype, Interaction with host, Metabolome, medicine.drug, Signal Transduction, Research Article, Biotechnology, Genotype, Fungus, Mycology, Secondary metabolite, Zea mays, Microbiology, Microbial Ecology, Genome Analysis Tools, Botany, medicine, Secondary metabolism, Gene Prediction, Biology, Microbial Pathogens, Genetic Association Studies, Microbial Metabolism, lcsh:R, Fungi, Reproducibility of Results, Molecular Sequence Annotation, biology.organism_classification, Oxidative Stress, lcsh:Q, sense organs, Energy Metabolism, Transcriptome
Abstract

Aspergillus flavus is a cosmopolitan fungus able to respond to external stimuli and to shift both its trophic behaviour and the production of secondary metabolites, including that of the carcinogen aflatoxin (AF). To better understand the adaptability of this fungus, we examined genetic and phenotypic responses within the fungus when grown under four conditions that mimic different ecological niches ranging from saprophytic growth to parasitism. Global transcription changes were observed in both primary and secondary metabolism in response to these conditions, particularly in secondary metabolism where transcription of nearly half of the predicted secondary metabolite clusters changed in response to the trophic states of the fungus. The greatest transcriptional change was found between saprophytic and parasitic growth, which resulted in expression changes in over 800 genes in A. flavus. The fungus also responded to growth conditions, putatively by adaptive changes in conidia, resulting in differences in their ability to utilize carbon sources. We also examined tolerance of A. flavus to oxidative stress and found that growth and secondary metabolism were altered in a superoxide dismutase (sod) mutant and an alkyl-hydroperoxide reductase (ahp) mutant of A. flavus. Data presented in this study show a multifaceted response of A. flavus to its environment and suggest that oxidative stress and secondary metabolism are important in the ecology of this fungus, notably in its interaction with host plant and in relation to changes in its lifestyle (i.e. saprobic to pathogenic).

Published
2013

47. Oxylipins from both pathogen and host antagonize jasmonic acid‐mediated defence via the 9‐lipoxygenase pathway in Fusarium verticillioides infection of maize.

Author

Battilani, Paola, Lanubile, Alessandra, Scala, Valeria, Reverberi, Massimo, Gregori, Rossella, Falavigna, Claudia, Dall'asta, Chiara, Park, Yong‐Soon, Bennett, John, Borrego, Eli J., and Kolomiets, Michael V.

Subjects
GIBBERELLA fujikuroi, FUSARIUM diseases of plants, FUNGAL diseases of plants, PHYTOPATHOGENIC microorganisms, PATHOGENIC microorganisms, JASMONIC acid
Abstract

Summary: Oxylipins are a newly emerging group of signals that serve defence roles or promote virulence. To identify specific host and fungal genes and oxylipins governing the interactions between maize and Fusarium verticillioides, maize wild‐type and lipoxygenase3 (lox3) mutant were inoculated with either F. verticillioides wild‐type or linoleate‐diol‐synthase 1‐deleted mutant (ΔFvlds1D). The results showed that lox3 mutants were more resistant to F. verticillioides. The reduced colonization on lox3 was associated with reduced fumonisin production and with a stronger and earlier induction of ZmLOX4, ZmLOX5 and ZmLOX12. In addition to the reported defence function of ZmLOX12, we showed that lox4 and lox5 mutants were more susceptible to F. verticillioides and possessed decreased jasmonate levels during infection, suggesting that these genes are essential for jasmonic acid (JA)‐mediated defence. Oxylipin profiling revealed a dramatic reduction in fungal linoleate diol synthase 1 (LDS1)‐derived oxylipins, especially 8‐HpODE (8‐hydroperoxyoctadecenoic acid), in infected lox3 kernels, indicating the importance of this molecule in virulence. Collectively, we make the following conclusions: (1) LOX3 is a major susceptibility factor induced by fungal LDS1‐derived oxylipins to suppress JA‐stimulating 9‐LOXs; (2) LOX3‐mediated signalling promotes the biosynthesis of virulence‐promoting oxylipins in the fungus; and (3) both fungal LDS1‐ and host LOX3‐produced oxylipins are essential for the normal infection and colonization processes of maize seed by F. verticillioides. [ABSTRACT FROM AUTHOR]

Published
2018
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48. Lipid Profile of Xylella fastidiosa Subsp. pauca Associated With the Olive Quick Decline Syndrome.

Author

Scala, Valeria, Reverberi, Massimo, Salustri, Manuel, Pucci, Nicoletta, Modesti, Vanessa, Lucchesi, Simone, and Loreti, Stefania

Subjects
XYLELLA fastidiosa, CITRUS tristeza disease, PLANT-pathogen relationships
Abstract

Lipids, components of the plasma and intracellular membranes as well as of droplets, provide different biological functions related to energy, carbon storage, and stress responses. Bacterial species display diverse membrane composition that changes in response to the different environmental conditions. During plant-pathogen interactions, lipids might have roles in several aspects such as recognition, signal transduction, and downstream responses. Among lipid entities, free fatty acids (FFAs) and their oxidized form, the oxylipins, represent an important class of signaling molecules in host-pathogen perception, especially related to virulence and defense. In bacteria, FFAs (e.g., diffusible signaling factors) and oxylipins have a crucial role in modulating motility, biofilm formation, and virulence. In this study, we explore by LC-TOF and LC-MS/MS the lipid composition of Xylella fastidiosa subsp. pauca strain De Donno in pure culture; some specific lipids (e.g., ornithine lipids and the oxylipin 7,10-diHOME), characteristic of other pathogenic bacteria, were revealed. Nicotiana tabacum was used for testing the ability of this pathogen in producing such lipids in the host. Different lipid compounds present a clear distribution pattern within the infected plant tissues compared to the uninfected ones. [ABSTRACT FROM AUTHOR]

Published
2018
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49. Tramesan, a novel polysaccharide from Trametes versicolor. Structural characterization and biological effects.

Author

Scarpari, Marzia, Reverberi, Massimo, Parroni, Alessia, Scala, Valeria, Fanelli, Corrado, Pietricola, Chiara, Zjalic, Slaven, Maresca, Vittoria, Tafuri, Agostino, Ricciardi, Maria R., Licchetta, Roberto, Mirabilii, Simone, Sveronis, Aris, Cescutti, Paola, and Rizzo, Roberto

Subjects
*TRAMETES (Polyporaceae), *TRAMETES versicolor, *POLYSACCHARIDES, *AGONOMYCETALES, *ANTILIPEMIC agents
Abstract

Mushrooms represent a formidable source of bioactive compounds. Some of these may be considered as biological response modifiers; these include compounds with a specific biological function: antibiotics (e.g. plectasin), immune system stimulator (e,g, lentinan), antitumor agents (e.g. krestin, PSK) and hypolipidemic agents (e.g. lovastatin) inter alia. In this study, we focused on the Chinese medicinal mushroom “yun zhi”, Trametes versicolor, traditionally used for (cit.) “replenish essence and qi (vital energy)”. Previous studies indicated the potential activity of extracts from culture filtrate of asexual mycelia of T. versicolor in controlling the growth and secondary metabolism (e.g. mycotoxins) of plant pathogenic fungi. The quest of active principles produced by T. versicolor, allowed us characterising an exo-polysaccharide released in its culture filtrate and naming it Tramesan. Herein we evaluate the biological activity of Tramesan in different organisms: plants, mammals and plant pathogenic fungi. We suggest that the bioactivity of Tramesan relies mostly on its ability to act as pro antioxidant molecule regardless the biological system on which it was applied. [ABSTRACT FROM AUTHOR]

Published
2017
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50. Careful with That Axe, Gene, Genome Perturbation after a PEG-Mediated Protoplast Transformation in Fusarium verticillioides.

Author

Scala, Valeria, Grottoli, Alessandro, Aiese Cigliano, Riccardo, Anzar, Irantzu, Beccaccioli, Marzia, Fanelli, Corrado, Dall'Asta, Chiara, Battilani, Paola, Reverberi, Massimo, and Sanseverino, Walter

Subjects
GIBBERELLA fujikuroi, GENOMES, GENES, BIOINFORMATICS, SINGLE nucleotide polymorphisms
Abstract

Fusarium verticillioides causes ear rot disease in maize and its contamination with fumonisins, mycotoxins harmful for humans and livestock. Lipids, and their oxidized forms, may drive the fate of this disease. In a previous study, we have explored the role of oxylipins in this interaction by deleting by standard transformation procedures a linoleate diol synthase-coding gene, lds1, in F. verticillioides. A profound phenotypic diversity in the mutants generated has prompted us to investigate more deeply the whole genome of two lds1-deleted strains. Bioinformatics analyses pinpoint significant differences in the genome sequences emerged between the wild type and the lds1-mutants further than those trivially attributable to the deletion of the lds1 locus, such as single nucleotide polymorphisms, small deletion/insertion polymorphisms and structural variations. Results suggest that the effect of a (theoretically) punctual transformation event might have enhanced the natural mechanisms of genomic variability and that transformation practices, commonly used in the reverse genetics of fungi, may potentially be responsible for unexpected, stochastic and henceforth off-target rearrangements throughout the genome. [ABSTRACT FROM AUTHOR]

Published
2017
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