4.3 Article

Mycorrhiza improves cold tolerance of Satsuma orange by inducing antioxidant enzyme gene expression

Journal

BIOCELL
Volume 46, Issue 8, Pages 1959-1966

Publisher

TECH SCIENCE PRESS
DOI: 10.32604/biocell.2022.020391

Keywords

Antioxidant defense system; Citrus; Cold stress; Mycorrhiza; Oxidative burst

Categories

Funding

  1. Plan in Scientific and Technological Innovation Team of Outstanding Young Scientists, Hubei Provincial Department of Education [T201604]
  2. Hubei Agricultural Science and Technology Innovation Action Project (Hubei Nongfa [2018]) [1]
  3. King Saud University, Riyadh, Saudi Arabia [RSP-2021/134]

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In this study, a potted experiment was conducted to investigate the effects of arbuscular mycorrhizal fungi on the antioxidant defense system of Satsuma orange under cold stress. The results showed that inoculation with these fungi enhanced the cold resistance of the plants by regulating the activity and gene expression levels of antioxidant enzymes. This study highlights the importance of mycorrhizal fungi in improving plant tolerance to cold stress.
A potted experiment was carried out to study the effect of an arbuscular mycorrhizal fungus (Diversispora versiformis) and arbuscular mycorrhizal like fungus (Piriformospora indica) on antioxidant enzyme defense system of Satsuma orange (Citrus sinensis cv. Oita 4) grafted on Poncirus trifoliata under favourable temperature (25 degrees C) and cold temperature (0 degrees C) for 12 h. Such short-term treatment of cold temperature did not cause any significant change in root fungal colonization and spore density in soil. Under cold stress, D. versiformis inoculation did not change the activity of superoxide dismutase (SOD), catalase (CAT), and peroxidase (POD) in leaves and roots, whereas P. indica inoculation significantly increased the activity of CAT in roots and POD in leaves only. In addition, inoculation of two mycorrhizal fungi under cold stress significantly increased the relative expression levels of PtPOD and PtF-SOD in leaves, P. indica up-regulated the expression levels of PtCu/Zn-SOD in leaves, and D. versiformis also induced the expression levels of PtMn-SOD and PtCAT1 in leaves. In addition, inoculated Oita 4 trees maintained significantly lower hydrogen peroxide levels and malondialdehyde contents in leaves and roots under cold temperature, suggesting induced the expression of antioxidant enzyme genes, depending on the fungal species, and thus mitigated oxidative damage for higher cold resistance in inoculated plants.

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