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Temperature and light reverse the fertility of rice P/<scp>TGMS</scp> line <i>ostms19</i> via reactive oxygen species homeostasis

Lei Zhou, Yi‐Chen Mao, Yuan‐Han Yang, Junjie Wang, Xiang Zhong, Yu Han, Yanfei Zhang, Qiang‐Sheng Shi, Xuehui Huang, Blake C. Meyers, Jun Zhu, Zhong‐Nan Yang

2024Plant Biotechnology Journal29 citationsDOIOpen Access PDF

Abstract

P/TGMS (Photo/thermo-sensitive genic male sterile) lines are crucial resources for two-line hybrid rice breeding. Previous studies revealed that slow development is a general mechanism for sterility-fertility conversion of P/TGMS in Arabidopsis. However, the difference in P/TGMS genes between rice and Arabidopsis suggests the presence of a distinct P/TGMS mechanism in rice. In this study, we isolated a novel P/TGMS line, ostms19, which shows sterility under high-temperature conditions and fertility under low-temperature conditions. OsTMS19 encodes a novel pentatricopeptide repeat (PPR) protein essential for pollen formation, in which a point mutation GTA(Val) to GCA(Ala) leads to ostms19 P/TGMS phenotype. It is highly expressed in the tapetum and localized to mitochondria. Under high temperature or long-day photoperiod conditions, excessive ROS accumulation in ostms19 anthers during pollen mitosis disrupts gene expression and intine formation, causing male sterility. Conversely, under low temperature or short-day photoperiod conditions, ROS can be effectively scavenged in anthers, resulting in fertility restoration. This indicates that ROS homeostasis is critical for fertility conversion. This relationship between ROS homeostasis and fertility conversion has also been observed in other tested rice P/TGMS lines. Therefore, we propose that ROS homeostasis is a general mechanism for the sterility-fertility conversion of rice P/TGMS lines.

Topics & Concepts

BiologySterilityTapetumArabidopsisPentatricopeptide repeatReactive oxygen speciesPollenOryza sativaArabidopsis thalianaCell biologyBotanyStamenGeneGeneticsMutantMicrosporePhotosynthetic Processes and MechanismsPlant Reproductive BiologyPlant Molecular Biology Research
Temperature and light reverse the fertility of rice P/<scp>TGMS</scp> line <i>ostms19</i> via reactive oxygen species homeostasis | Litcius