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Relationship of ROS accumulation and superoxide dismutase isozymes in developing anther with floret fertility of rice under heat stress

High temperature (HT) at meiosis stage is one of most important environment constraint affecting spikelet fertility and rice yield. In this paper, the effects of HT exposure at meiosis stage on the ROS (reactive oxygen species) accumulation, various superoxide dismutase (SOD, EC1.15.1.11) isozymes i...

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Published in:Plant physiology and biochemistry 2018-01, Vol.122, p.90-101
Main Authors: Zhao, Qian, Zhou, Lujian, Liu, Jianchao, Du, Xiaoxia, Asad, Muhammad-Asad-Ullah, Huang, Fudeng, Pan, Gang, Cheng, Fangmin
Format: Article
Language:English
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Summary:High temperature (HT) at meiosis stage is one of most important environment constraint affecting spikelet fertility and rice yield. In this paper, the effects of HT exposure at meiosis stage on the ROS (reactive oxygen species) accumulation, various superoxide dismutase (SOD, EC1.15.1.11) isozymes in developing anther, and its relationship with HT-induced decline in pollen viability and floret fertility were investigated by using four rice cultivars differing in heat tolerance under well-controlled climatic condition. Results showed that HT exposure significantly increased ROS level and malondialdehyde (MDA) content in rice anther, and this occurrence was strongly responsible for the HT-induced decline in pollen viability and harmful effect of HT adversity on floret fertility. However, the increased extent of ROS concentration in rice anther under HT exposure was greatly variable, depending on both the intensity and duration of HT exposure and different rice cultivars used. The SOD and CAT activities of HT-sensitive cultivars decreased more profoundly than those of HT-tolerant cultivars under the same HT regimes. Among various types of SOD enzymes, Cu/Zn–SODa expressed highly in rice anther and responded sensitively to HT exposure, while Cu/Zn–SODb expressed weakly in rice anther and preferentially in rice leaves. HT exposure suppressed the expression of Cu/Zn–SODa in developing anther, which was closely associated with the down-regulated transcripts of cCu/Zn–SOD1 gene. Hence, Cu/Zn–SODa may play a central role in the regulation of total SOD activity and ROS detoxification in rice anther as affected by HT exposure at meiosis stage. •ROS in rice anther was closely related to cultivar specific change in HT injury.•Cu/Zn-SODa dominated SOD activity in anther and responded sensitively to HT stress.•HT stress regulated Cu/Zn-SODa in anther at both protein and transcript level.•Cu/Zn-SODb contributed slightly to HT-induced ROS scavenging in rice anther.
ISSN:0981-9428
1873-2690
DOI:10.1016/j.plaphy.2017.11.009