Your search keyword '"Oberhuber M"' showing total 4 results

1. Biogenic volatile organic compounds in the grapevine response to pathogens, beneficial microorganisms, resistance inducers, and abiotic factors.

Author

Lazazzara V, Avesani S, Robatscher P, Oberhuber M, Pertot I, Schuhmacher R, and Perazzolli M

Subjects

Plant Physiological Phenomena, Plants, Stress, Physiological, Volatile Organic Compounds

Abstract

The synthesis of volatile organic compounds (VOCs) in plants is triggered in response to external stimuli, and these compounds can migrate to distal tissues and neighbouring receivers. Although grapevine VOCs responsible for wine aroma and plant-insect communications are well characterized, functional properties of VOCs produced in response to phytopathogens, beneficial microorganisms, resistance inducers, and abiotic factors have been less studied. In this review, we focused on the emission patterns and potential biological functions of VOCs produced by grapevines in response to stimuli. Specific grapevine VOCs are emitted in response to the exogenous stimulus, suggesting their precise involvement in plant defence response. VOCs with inhibitory activities against pathogens and responsible for plant resistance induction are reported, and some of them can also be used as biomarkers of grapevine resistance. Likewise, VOCs produced in response to beneficial microorganisms and environmental factors are possible mediators of grapevine-microbe communications and abiotic stress tolerance. Although further functional studies may improve our knowledge, the existing literature suggests that VOCs have an underestimated potential application as pathogen inhibitors, resistance inducers against biotic or abiotic stresses, signalling molecules, membrane stabilizers, and modulators of reactive oxygen species. VOC patterns could also be used to screen for resistant traits or to monitor the plant physiological status., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2022

2. Chemodiversity in the fingerprint analysis of volatile organic compounds (VOCs) of 35 old and 7 modern apple cultivars determined by proton-transfer-reaction mass spectrometry (PTR-MS) in two different seasons.

Author

Ciesa F, Höller I, Guerra W, Berger J, Dalla Via J, and Oberhuber M

Subjects

Fruit chemistry, Molecular Structure, Seasons, Malus chemistry, Mass Spectrometry, Protons, Volatile Organic Compounds analysis

Abstract

Volatile organic compounds (VOCs) are chemical species that play an important role in determining the characteristic aroma and flavor of fruits. Apple (Malus × domestica Borkh.) cultivars differ in their aroma and composition of VOCs. To determine varietal differences in the aroma profiles, VOCs emitted by 7 modern and 35 old apple cultivars were analyzed using Proton Transfer Reaction Mass Spectrometry (PTR-MS). PTR-MS is a rapid, reproducible, and non-destructive spectrometric technique for VOC analysis of single fruits, developed for direct injection analysis. In the present study, we analyzed the differences in the emission of VOCs from single fruits at harvest and after a storage period of 60±10 days, followed by 3 d of shelf life. Our results show that VOC profile differences among apple cultivars were more pronounced after storage than at harvest. Furthermore, chemodiversity was higher in old cultivars compared to modern cultivars, probably due to their greater genetic variability. Our data highlight the importance of storage and shelf life are crucial for the development of the typical aroma and flavor of several apple cultivars. The validity of the method is demonstrated by comparison of two different harvest years., (Copyright © 2015 Verlag Helvetica Chimica Acta AG, Zürich.)

Published

2015

3. Untargeted Metabolomics approach to understand grapevine communication mediated by volatile organic compounds against downy mildew

Author

Avesani, S., Lazazzara, V., Oberhuber, M., Robatscher, P., and Perazzolli, M.

Subjects

Volatile Organic Compounds, Metabolomics, Grapevine, Settore AGR/12 - PATOLOGIA VEGETALE, Downy mildew

Published

2022

4. Understanding of grapevine communication mediated by volatile organic compounds against downy mildew using a metabolomics approach

Author

Avesani, S., Lazazzara, V., Oberhuber, M., Robatscher, P., and Perazzolli, M.

Subjects

Settore BIO/04 - FISIOLOGIA VEGETALE, Volatile Organic Compounds, Metabolomics, Grapevine, Downy mildew

Published

2021