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Functional Plant Biology Functional Plant Biology Society
Plant function and evolutionary biology
RESEARCH ARTICLE

Agronomic, physiological and molecular characterisation of rice mutants revealed the key role of reactive oxygen species and catalase in high-temperature stress tolerance

Syed Adeel Zafar https://orcid.org/0000-0002-4859-144X A B C , Amjad Hameed B E , Muhammad Ashraf B , Abdus Salam Khan A , Zia-ul- Qamar B , Xueyong Li C and Kadambot H. M. Siddique D E
+ Author Affiliations
- Author Affiliations

A Department of Plant Breeding and Genetics, University of Agriculture, Faisalabad, Pakistan.

B Nuclear Institute for Agriculture and Biology (NIAB), PO Box 128, Faisalabad, Pakistan.

C National Key Facility for Crop Gene Resources and Genetic Improvement, Institute of Crop Science, Chinese Academy of Agricultural Sciences, Beijing 100081, China.

D The UWA Institute of Agriculture, The University of Western Australia, Perth, WA 6001, Australia.

E Corresponding authors. Email: amjad46pk@yahoo.com; kadambot.siddique@uwa.edu.au

Functional Plant Biology 47(5) 440-453 https://doi.org/10.1071/FP19246
Submitted: 23 January 2019  Accepted: 9 December 2019   Published: 25 March 2020

Abstract

Climatic variations have increased the occurrence of heat stress during critical growth stages, which negatively affects grain yield in rice. Plants adapt to harsh environments, and particularly high-temperature stress, by regulating their physiological and biochemical processes, which are key tolerance mechanisms. The identification of heat-tolerant rice genotypes and reliable selection indices are crucial for rice improvement programs. Here, we evaluated the response of a rice mutant population for high-temperature stress at the seedling and reproductive stages based on agronomic, physiological and molecular indices. Estimates of variance components revealed significant differences (P < 0.001) among genotypes, treatments and their interactions for almost all traits. The principal component analysis showed significant diversity among genotypes and traits under high-temperature stress. The mutant HTT-121 was identified as the most heat-tolerant mutant with higher grain yield, panicle fertility, cell membrane thermo-stability (CMTS) and antioxidant enzyme levels under heat stress. Various seedling-based morpho-physiological traits (leaf fresh weight, relative water contents, malondialdehyde, CMTS) and biochemical traits (superoxide dismutase, catalase and hydrogen peroxide) explained variations in grain yield that could be used as selection indices for heat tolerance in rice during early growth. Notably, heat-sensitive mutants accumulated reactive oxygen species, reduced catalase activity and upregulated OsSRFP1 expression under heat stress, suggesting their key roles in regulating heat tolerance in rice. The heat-tolerant mutants identified in this study could be used in breeding programs and to develop mapping populations to unravel the underlying genetic architecture for heat-stress adaptability.

Additional keywords: antioxidants, correlation grain yield, hydrogen peroxide, PCA, ROS.


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