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Buch ; Online ; E-Book: Nitric oxide in developing plant stress resilience

Khan, M. Iqbal R. / Iqbal, Noushina / Poor, Peter / Ferrante, Antonio

(Plant Gasotransmitters and Molecules with Hormonal Activity Series)

2023

Verfasserangabe	edited by M. Iqbal R. Khan, Noushina Iqbal, Peter Poor, Antonio Ferrante
Serientitel	Plant Gasotransmitters and Molecules with Hormonal Activity Series
Schlagwörter	Plants/Effect of stress on. ; Nitric oxide
Thema/Rubrik (Code)	581.7
Sprache	Englisch
Umfang	1 online resource (348 pages)
Ausgabenhinweis	1st ed.
Verlag	Elsevier Science & Technology
Erscheinungsort	San Diego
Dokumenttyp	Buch ; Online ; E-Book
Bemerkung	Zugriff für angemeldete ZB MED-Nutzerinnen und -Nutzer
ISBN	0-323-91626-0 ; 9780323912099 ; 978-0-323-91626-4 ; 0323912095
Datenquelle	ZB MED Katalog Medizin, Gesundheit, Ernährung, Umwelt, Agrar

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Buch ; Online ; E-Book: Plant hormones in crop improvement

Khan, M. Iqbal R. / Singh, Amarjeet / Poór, Péter

2023

Verfasserangabe	edited by M. Iqbal R. Khan, Amarjeet Singh, Péter Poór
Sprache	Englisch
Umfang	1 Online-Ressource (xii, 345 Seiten), Illustrationen
Verlag	Elsevier Academic Press
Erscheinungsort	London
Erscheinungsland	Vereinigtes Königreich
Dokumenttyp	Buch ; Online ; E-Book
Bemerkung	Zugriff für angemeldete ZB MED-Nutzerinnen und -Nutzer
HBZ-ID	HT021732164
ISBN	978-0-323-91955-5 ; 9780323918862 ; 0-323-91955-3 ; 0323918867
Datenquelle	ZB MED Katalog Medizin, Gesundheit, Ernährung, Umwelt, Agrar

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Buch ; Online ; E-Book: Improving abiotic stress tolerance in plants

Khan, M. Iqbal R. / Singh, Amarjeet / Poór, Péter

2020

Verfasserangabe	edited by M. Iqbal R. Khan, Amarjeet Singh and Péter Poór
Schlagwörter	Crops/Effect of stress on ; Crops/Physiology
Sprache	Englisch
Umfang	1 Online-Ressource (xii, 322 Seiten), Illustrationen
Verlag	CRC Press
Erscheinungsort	Boca Raton, Fla
Erscheinungsland	Vereinigte Staaten
Dokumenttyp	Buch ; Online ; E-Book
Bemerkung	Zugriff für angemeldete ZB MED-Nutzerinnen und -Nutzer
HBZ-ID	HT020469845
ISBN	978-0-429-64852-6 ; 9780367136246 ; 0-429-64852-9 ; 0367136244
Datenquelle	ZB MED Katalog Medizin, Gesundheit, Ernährung, Umwelt, Agrar

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Buch ; Online: Ethylene: A Key Regulatory Molecule in Plants

Ferrante, Antonio / Khan, Nafees A. / Khan, M. Iqbal R. / Poor, Peter

2017

Abstract: Ethylene is a simple gaseous phytohormone with multiple roles in regulation of metabolism at cellular, molecular, and whole plant level. It influences performance of plants under optimal and stressful environments by interacting with other signaling ... ...

Abstract	Ethylene is a simple gaseous phytohormone with multiple roles in regulation of metabolism at cellular, molecular, and whole plant level. It influences performance of plants under optimal and stressful environments by interacting with other signaling molecules. Understanding the ethylene biosynthesis and action through the plant's life can contribute to improve the knowledge of plant functionality and use of this plant hormone may drive adaptation and defense of plants from the adverse environmental conditions. The action of ethylene depends on its concentration in cell and the sensitivity of plants to the hormone. In recent years, research on ethylene has been focused, due to its dual action, on the regulation of plant processes at physiological and molecular level. The involvement of ethylene in the regulation of transcription needs to be widely explored involving the interaction with other key molecular regulators. The aim of the current research topic was to explore and update our understanding on its regulatory role in plant developmental mechanisms at cellular or whole plant level under optimal and changing environmental conditions. The present edited volume includes original research papers and review articles describing ethylene's regulatory role in plant development during plant ontogeny and also explains how it interacts with biotic and abiotic stress factors. This comprehensive collection of researches provide evidence that ethylene is essential in different physiological processes and does not always work alone, but in coordinated manner with other plant hormones. This research topic is also a source of tips for further works that should be addressed for the biology and molecular effects on plants
Schlagwörter	Science (General) ; Botany ; Physiology
Umfang	1 electronic resource (310 p.)
Verlag	Frontiers Media SA
Dokumenttyp	Buch ; Online
Anmerkung	English ; Open Access
HBZ-ID	HT020099671
ISBN	9782889453412 ; 2889453413
Datenquelle	ZB MED Katalog Medizin, Gesundheit, Ernährung, Umwelt, Agrar

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Artikel ; Online: Effects of Salicylic Acid on the Metabolism of Mitochondrial Reactive Oxygen Species in Plants.

Poór, Péter

Biomolecules

2020 Band 10, Heft 2

Abstract: Different abiotic and biotic stresses lead to the production and accumulation of reactive oxygen species (ROS) in various cell organelles such as in mitochondria, resulting in oxidative stress, inducing defense responses or programmed cell death (PCD) in ...

Abstract	Different abiotic and biotic stresses lead to the production and accumulation of reactive oxygen species (ROS) in various cell organelles such as in mitochondria, resulting in oxidative stress, inducing defense responses or programmed cell death (PCD) in plants. In response to oxidative stress, cells activate various cytoprotective responses, enhancing the antioxidant system, increasing the activity of alternative oxidase and degrading the oxidized proteins. Oxidative stress responses are orchestrated by several phytohormones such as salicylic acid (SA). The biomolecule SA is a key regulator in mitochondria-mediated defense signaling and PCD, but the mode of its action is not known in full detail. In this review, the current knowledge on the multifaceted role of SA in mitochondrial ROS metabolism is summarized to gain a better understanding of SA-regulated processes at the subcellular level in plant defense responses.
Mesh-Begriff(e)	Antioxidants/pharmacology ; Cytochromes c/metabolism ; Gene Expression Regulation, Plant/drug effects ; Hydrogen Peroxide/metabolism ; Mitochondria/metabolism ; Mitochondrial Proteins/metabolism ; Oxidative Stress/drug effects ; Oxidoreductases/metabolism ; Plant Proteins/metabolism ; Reactive Oxygen Species/metabolism ; Salicylic Acid/metabolism ; Salicylic Acid/pharmacology ; Stress, Physiological/drug effects
Chemische Substanzen	Antioxidants ; Mitochondrial Proteins ; Plant Proteins ; Reactive Oxygen Species ; Cytochromes c (9007-43-6) ; Hydrogen Peroxide (BBX060AN9V) ; Oxidoreductases (EC 1.-) ; alternative oxidase (EC 1.-) ; Salicylic Acid (O414PZ4LPZ)
Sprache	Englisch
Erscheinungsdatum	2020-02-21
Erscheinungsland	Switzerland
Dokumenttyp	Journal Article ; Research Support, Non-U.S. Gov't ; Review
ZDB-ID	2701262-1
ISSN	2218-273X ; 2218-273X
ISSN (online)	2218-273X
ISSN	2218-273X
DOI	10.3390/biom10020341
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: Ethylene-dependent regulation of oxidative stress in the leaves of fusaric acid-treated tomato plants

Iqbal, Nadeem / Czékus, Zalán / Poór, Péter / Ördög, Attila

Plant Physiology and Biochemistry. 2023 Mar., v. 196 p.841-849

2023

Abstract: The mycotoxin fusaric acid (FA) induces rapid oxidative burst leading to cell death in plants. At the same time, plant defence reactions are mediated by several phytohormones for instance ethylene (ET). However, previously conducted studies leave ... ...

Abstract	The mycotoxin fusaric acid (FA) induces rapid oxidative burst leading to cell death in plants. At the same time, plant defence reactions are mediated by several phytohormones for instance ethylene (ET). However, previously conducted studies leave research gaps on how ET plays a regulatory role under mycotoxin exposure. Therefore, this study aims to the time-dependent effects of two FA concentrations (0.1 mM and 1 mM) were explored on the regulation of reactive oxygen species (ROS) in leaves of wild-type (WT) and ET receptor mutant Never ripe (Nr) tomatoes. FA induced superoxide and H₂O₂ accumulation in both genotypes in a mycotoxin dose- and exposure time-dependent pattern. 1 mM FA activated NADPH oxidase (+34% compared to the control) and RBOH1 transcript levels in WT leaves. However, superoxide production was significantly higher in Nr with 62% which could contribute to higher lipid peroxidation in this genotype. In parallel, the antioxidative defence mechanisms were also activated. Both peroxidase and superoxide dismutase activities were lower in Nr but ascorbate peroxidase showed one-fold higher activity under 1 mM FA stress than in WT leaves. Interestingly, catalase (CAT) activity decreased upon FA in a time- and concentration-dependent manner and the encoding CAT genes were also downregulated, especially in Nr leaves at 20%. Ascorbate level was decreased and glutathione remained lower in Nr than WT plants under FA exposure. Conclusively, Nr genotype showed more sensitivity to FA-induced ROS suggesting that ET serves defence reactions of plants by activating several enzymatic and non-enzymatic antioxidants to detoxify excess ROS accumulation.
Schlagwörter	NAD(P)H oxidase (H2O2-forming) ; ascorbate peroxidase ; catalase ; cell death ; ethylene ; fusaric acid ; genotype ; glutathione ; lipid peroxidation ; mutants ; oxidative stress ; peroxidase ; plant physiology ; reactive oxygen species ; superoxide dismutase ; tomatoes ; Antioxidants
Sprache	Englisch
Erscheinungsverlauf	2023-03
Umfang	p. 841-849.
Erscheinungsort	Elsevier Masson SAS
Dokumenttyp	Artikel ; Online
Anmerkung	Use and reproduction
ZDB-ID	742978-2
ISSN	1873-2690 ; 0981-9428
ISSN (online)	1873-2690
ISSN	0981-9428
DOI	10.1016/j.plaphy.2023.02.047
Datenquelle	NAL Katalog (AGRICOLA)

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Artikel ; Online: Ethylene-dependent regulation of oxidative stress in the leaves of fusaric acid-treated tomato plants.

Iqbal, Nadeem / Czékus, Zalán / Poór, Péter / Ördög, Attila

Plant physiology and biochemistry : PPB

2023 Band 196, Seite(n) 841–849

Abstract	The mycotoxin fusaric acid (FA) induces rapid oxidative burst leading to cell death in plants. At the same time, plant defence reactions are mediated by several phytohormones for instance ethylene (ET). However, previously conducted studies leave research gaps on how ET plays a regulatory role under mycotoxin exposure. Therefore, this study aims to the time-dependent effects of two FA concentrations (0.1 mM and 1 mM) were explored on the regulation of reactive oxygen species (ROS) in leaves of wild-type (WT) and ET receptor mutant Never ripe (Nr) tomatoes. FA induced superoxide and H
Mesh-Begriff(e)	Reactive Oxygen Species/metabolism ; Solanum lycopersicum ; Superoxides/metabolism ; Fusaric Acid/pharmacology ; Fusaric Acid/metabolism ; Hydrogen Peroxide/metabolism ; Oxidative Stress ; Antioxidants/metabolism ; Plants/metabolism ; Ascorbate Peroxidases/metabolism ; Ethylenes/metabolism ; Plant Leaves/metabolism ; Superoxide Dismutase/metabolism ; Catalase/metabolism
Chemische Substanzen	Reactive Oxygen Species ; Superoxides (11062-77-4) ; Fusaric Acid (JWJ963070N) ; Hydrogen Peroxide (BBX060AN9V) ; Antioxidants ; Ascorbate Peroxidases (EC 1.11.1.11) ; Ethylenes ; Superoxide Dismutase (EC 1.15.1.1) ; Catalase (EC 1.11.1.6)
Sprache	Englisch
Erscheinungsdatum	2023-02-27
Erscheinungsland	France
Dokumenttyp	Journal Article
ZDB-ID	742978-2
ISSN	1873-2690 ; 0981-9428
ISSN (online)	1873-2690
ISSN	0981-9428
DOI	10.1016/j.plaphy.2023.02.047
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: Fusaric acid-evoked oxidative stress affects plant defence system by inducing biochemical changes at subcellular level.

Iqbal, Nadeem / Czékus, Zalán / Ördög, Attila / Poór, Péter

Plant cell reports

2023 Band 43, Heft 1, Seite(n) 2

Abstract: Fusaric acid (FA) is one of the most harmful phytotoxins produced in various plant-pathogen interactions. Fusarium species produce FA as a secondary metabolite, which can infect many agronomic crops at all stages of development from seed to fruit, and FA ...

Abstract	Fusaric acid (FA) is one of the most harmful phytotoxins produced in various plant-pathogen interactions. Fusarium species produce FA as a secondary metabolite, which can infect many agronomic crops at all stages of development from seed to fruit, and FA production can further compromise plant survival because of its phytotoxic effects. FA exposure in plant species adversely affects plant growth, development and crop yield. FA exposure in plants leads to the generation of reactive oxygen species (ROS), which cause cellular damage and ultimately cell death. Therefore, FA-induced ROS accumulation in plants has been a topic of interest for many researchers to understand the plant-pathogen interactions and plant defence responses. In this study, we reviewed the FA-mediated oxidative stress and ROS-induced defence responses of antioxidants, as well as hormonal signalling in plants. The effects of FA phytotoxicity on lipid peroxidation, physiological changes and ultrastructural changes at cellular and subcellular levels were reported. Additionally, DNA damage, cell death and adverse effects on photosynthesis have been explained. Some possible approaches to overcome the harmful effects of FA in plants were also discussed. It is concluded that FA-induced ROS affect the enzymatic and non-enzymatic antioxidant system regulated by phytohormones. The effects of FA are also associated with other photosynthetic, ultrastructural and genotoxic modifications in plants.
Mesh-Begriff(e)	Reactive Oxygen Species ; Fusaric Acid ; Oxidative Stress ; Antioxidants ; Seeds
Chemische Substanzen	Reactive Oxygen Species ; Fusaric Acid (JWJ963070N) ; Antioxidants
Sprache	Englisch
Erscheinungsdatum	2023-12-18
Erscheinungsland	Germany
Dokumenttyp	Journal Article ; Review
ZDB-ID	8397-5
ISSN	1432-203X ; 0721-085X ; 0721-7714
ISSN (online)	1432-203X
ISSN	0721-085X ; 0721-7714
DOI	10.1007/s00299-023-03084-9
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: Salicylic acid- and ethylene-dependent effects of the ER stress-inducer tunicamycin on the photosynthetic light reactions in tomato plants.

Iqbal, Nadeem / Ördög, Attila / Koprivanacz, Péter / Kukri, András / Czékus, Zalán / Poór, Péter

Journal of plant physiology

2024 Band 295, Seite(n) 154222

Abstract: Plant hormones such as ethylene (ET) and salicylic acid (SA) have an elementary role in the regulation of ER stress and unfolded protein response (UPR) in plants via modulating defence responses or inducing oxidative stress. Chloroplasts can be sources ... ...

Abstract	Plant hormones such as ethylene (ET) and salicylic acid (SA) have an elementary role in the regulation of ER stress and unfolded protein response (UPR) in plants via modulating defence responses or inducing oxidative stress. Chloroplasts can be sources and targets of reactive oxygen species (ROS) that affect photosynthetic efficiency, which has not been investigated under tunicamycin (Tm)-induced ER stress. In this study, the direct and indirect effects of Tm on chloroplastic ROS production were first investigated in leaves of wild-type tomato (Solanum lycopersicum L.) plants. Secondly changes in activities of photosystem II and I were analysed under Tm exposure and after application of the chemical chaperone 4-phenylbutyrate (PBA) in different genotypes, focusing on the regulatory role of SA and ET Tm treatments significantly but indirectly induced ROS production in tomato leaves and in parallel it decreased the effective quantum yield of PSII [Y(II)] and PSI [Y(I)], as well as the photochemical quenching coefficient (qP) and the quantum yield of non-photochemical energy dissipation in PSI due to acceptor-side limitation [Y(NA)]. At the same time, Tm increased non-photochemical quenching (NPQ) and cyclic electron flow (CEF) in tomato leaves after 24 h. However, the photosynthetic activity of the SA hydroxylase-overexpressing NahG tomato plants was more severely affected by Tm as compared to wild-type and ET-insensitive Never ripe (Nr) plants. These results suggest the protective role of SA in the regulation of photosynthetic activity contributing to UPR and the survival of plants under ER stress. Interestingly, the activation of photoprotective mechanisms by NPQ was independent of SA but dependent on active ET signalling under ER stress, whereas CEF was reduced by ET due to its higher ratio in Nr plants.
Mesh-Begriff(e)	Solanum lycopersicum ; Tunicamycin/pharmacology ; Tunicamycin/metabolism ; Reactive Oxygen Species/metabolism ; Salicylic Acid/pharmacology ; Salicylic Acid/metabolism ; Photosynthesis/physiology ; Ethylenes/metabolism ; Photosystem II Protein Complex/metabolism ; Plant Leaves/metabolism ; Light
Chemische Substanzen	Tunicamycin (11089-65-9) ; Reactive Oxygen Species ; Salicylic Acid (O414PZ4LPZ) ; ethylene (91GW059KN7) ; Ethylenes ; Photosystem II Protein Complex
Sprache	Englisch
Erscheinungsdatum	2024-03-11
Erscheinungsland	Germany
Dokumenttyp	Journal Article
ZDB-ID	283647-6
ISSN	1618-1328 ; 0176-1617
ISSN (online)	1618-1328
ISSN	0176-1617
DOI	10.1016/j.jplph.2024.154222
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel: Editorial: Ethylene: a key regulatory molecule in plants, Volume II.

Khan, Nafees A / Ferrante, Antonio / Khan, M Iqbal R / Poor, Peter

Frontiers in plant science

2023 Band 14, Seite(n) 1222462

Sprache	Englisch
Erscheinungsdatum	2023-06-16
Erscheinungsland	Switzerland
Dokumenttyp	Editorial
ZDB-ID	2613694-6
ISSN	1664-462X
ISSN	1664-462X
DOI	10.3389/fpls.2023.1222462
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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