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OsCM regulates rice defence system in response to UV light supplemented with drought stress.

Authors :
Jan, R.
Kim, N.
Asaf, S.
Lubna
Asif, S.
Du, X.‐X.
Kim, E.‐G.
Jang, Y.‐H.
Kim, K.‐M.
Source :
Plant Biology; Oct2023, Vol. 25 Issue 6, p902-914, 13p
Publication Year :
2023

Abstract

Studies on plant responses to combined abiotic stresses are very limited, especially in major crop plants. The current study evaluated the response of chorismate mutase overexpressor (OxCM) rice line to combined UV light and drought stress.The experiments were conducted in pots in a growth chamber, and data were assessed for gene expression, antioxidant and hormone regulation, flavonoid accumulation, phenotypic variation, and amino acid accumulation.Wild‐type (WT) rice had reduced the growth and vigour, while transgenic rice maintained growth and vigour under combined UV light and drought stress. ROS and lipid peroxidation analysis revealed that chorismate mutase (OsCM) reduced oxidative stress mediated by ROS scavenging and reduced lipid peroxidation. The combined stresses reduced biosynthesis of total flavonoids, kaempferol and quercetin in WT plants, but increased significantly in plants with OxCM. Phytohormone analysis showed that SA was reduced by 50% in WT and 73% in transgenic plants, while ABA was reduced by 22% in WT plants but increased to 129% in transgenic plants. Expression of chorismate mutase regulates phenylalanine biosynthesis, UV light and drought stress‐responsive genes, e.g., phenylalanine ammonia lyase (OsPAL), dehydrin (OsDHN), dehydration‐responsive element‐binding (OsDREB), ras‐related protein 7 (OsRab7), ultraviolet‐B resistance 8 (OsUVR8), WRKY transcription factor 89 (OsWRKY89) and tryptophan synthase alpha chain (OsTSA). Moreover, OsCM also increases accumulation of free amino acids (aspartic acid, glutamic acid, leucine, tyrosine, phenylalanine and proline) and sodium (Na), potassium (K), and calcium (Ca) ions in response to the combined stresses.Together, these results suggest that chorismate mutase expression induces physiological, biochemical and molecular changes that enhance rice tolerance to combined UV light and drought stresses. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
14358603
Volume :
25
Issue :
6
Database :
Complementary Index
Journal :
Plant Biology
Publication Type :
Academic Journal
Accession number :
172046781
Full Text :
https://doi.org/10.1111/plb.13564