Ethylene reduces glucose sensitivity and reverses photosynthetic repression through optimization of glutathione production in salt-stressed wheat (Triticum aestivum L.)

Ethylene plays a crucial role throughout the life cycle of plants under optimal and stressful environments. The present study reports the involvement of exogenously sourced ethylene (as ethephon; 2-chloroethyl phosphonic acid) in the protection of the photosynthetic activity from glucose (Glu) sensi...

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Bibliographic Details
Published in:Scientific reports 2021-06, Vol.11 (1), p.12650-12650, Article 12650
Main Authors: Sehar, Zebus, Iqbal, Noushina, Khan, M. Iqbal R., Masood, Asim, Rehman, Md. Tabish, Hussain, Afzal, AlAjmi, Mohamed F., Ahmad, Altaf, Khan, Nafees A.
Format: Article
Language:English
Subjects:
631/449
631/449/1734
631/449/1741
Abiotic stress
Antioxidants
Biosynthesis
Buthionine sulfoximine
Carbohydrate Metabolism - drug effects
Ethylene
Ethylenes - pharmacology
Foliage
Glucose - metabolism
Glutathione
Glutathione - metabolism
Humanities and Social Sciences
Life cycles
multidisciplinary
Organophosphorus Compounds - pharmacology
Photosynthesis
Photosynthesis - drug effects
Photosystem II
Salinity tolerance
Salt Stress - physiology
Salts
Science
Science (multidisciplinary)
Sodium chloride
Triticum - drug effects
Triticum - metabolism
Triticum - physiology
Triticum aestivum
Wheat
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Summary:Ethylene plays a crucial role throughout the life cycle of plants under optimal and stressful environments. The present study reports the involvement of exogenously sourced ethylene (as ethephon; 2-chloroethyl phosphonic acid) in the protection of the photosynthetic activity from glucose (Glu) sensitivity through its influence on the antioxidant system for adaptation of wheat ( Triticum aestivum L.) plants under salt stress. Ten-day-old plants were subjected to control and 100 mM NaCl and treated with 200 µl L −1 ethephon on foliage at 20 days after seed sowing individually or in combination with 6% Glu. Plants receiving ethylene exhibited higher growth and photosynthesis through reduced Glu sensitivity in the presence of salt stress. Moreover, ethylene-induced reduced glutathione (GSH) production resulted in increased psbA and psbB expression to protect PSII activity and photosynthesis under salt stress. The use of buthionine sulfoximine (BSO), GSH biosynthesis inhibitor, substantiated the involvement of ethylene-induced GSH in the reversal of Glu-mediated photosynthetic repression in salt-stressed plants. It was suggested that ethylene increased the utilization of Glu under salt stress through its influence on photosynthetic potential and sink strength and reduced the Glu-mediated repression of photosynthesis.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-92086-2