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Article Abstract
Thermo-sensitive genic male-sterile (TGMS) lines are fertile at lower temperatures but male sterile above a critical sterility-inducing temperature (CSIT), which varies substantially across TGMS lines. Such lines are valuable resources for breeding two-line hybrid rice (Oryza sativa). However, as their utility is restricted by the CSIT, understanding its regulatory mechanisms has crucial breeding-associated implications. The thermo-sensitive genic male sterility 5 (tms5) mutation is common to most TGMS lines. We previously revealed that tms5 mutants failed to recycle cyclic phosphate (cP)-containing ΔCCA-tRNAs, particularly in pollen mother cells, resulting in fewer mature tRNAs, thereby causing TGMS. However, the CSIT-regulatory network in the tms5 lines remains unelucidated. Here, we characterized the CSIT-related ribosome-associated quality control 1 (OsRqc1) gene. OsRqc1 binds to the 60S ribosomal subunits and functions in ribosome-associated quality control. It also regulates the CSIT in tms5 lines by assisting OsVms1 in recruiting these subunits to generate cP-ΔCCA-tRNAs. Variations in a 6-bp repeat in the 5' untranslated region of OsRqc1 in rice subspecies affect its transcription, thereby altering the CSIT in tms5 lines. These findings reveal the role of an OsRqc1-OsVms1 module in regulating CSIT, providing valuable insights into genetic variations in OsRqc1. Such results may facilitate the molecular breeding of rice two-line hybrid tms5 lines with specific CSITs, which can adapt to regions with different environments.
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The OsRqc1-OsVms1 module regulates the temperature threshold in thermo-sensitive genic male-sterile rice lines.
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July 2025
Laboratory of Advanced Breeding Technologies, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing, 100101, China.
Thermo-sensitive genic male-sterile (TGMS) lines are fertile at lower temperatures but male sterile above a critical sterility-inducing temperature (CSIT), which varies substantially across TGMS lines. Such lines are valuable resources for breeding two-line hybrid rice (Oryza sativa). However, as their utility is restricted by the CSIT, understanding its regulatory mechanisms has crucial breeding-associated implications.
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Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China.
The two-line hybrid rice system, a cutting-edge hybrid rice breeding technology, has greatly boosted global food security. In thermo-sensitive genic male sterile (TGMS) lines, the critical sterility-inducing temperature (CSIT; the temperature at which TGMS lines change from male fertile to complete male sterile) acts as a key threshold. We recently uncovered that (), a sterile locus presenting in over 95% of TGMS lines, leads to the overaccumulation of 2',3'-cyclic phosphate (cP)-ΔCCA-tRNAs and a deficiency of mature tRNAs, which underlies the molecular mechanism of -mediated TGMS.
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Article Synopsis
- Hybrid rice, known for its resistance to pathogens and high yields, plays a crucial role in global food security, with the two-line hybrid rice system being the top breeding technology.
- The tms5 mutation, responsible for over 95% of current TGMS lines, affects ribonuclease Z and leads to abnormal accumulation of specific tRNAs at high temperatures, which impacts male fertility in rice plants.
- By restoring levels of alanine tRNAs and knocking out a specific gene (OsVms1), researchers found ways to completely regain male fertility in the tms5 mutant, shedding light on potential advancements for hybrid crop development.
An E3 ubiquitin ligase CSIT2 controls critical sterility-inducing temperature of thermo-sensitive genic male sterile rice.
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State Key Laboratory for Conservation and Utilization of Subtropical Agro-bioresources, Guangdong Laboratory for Lingnan Modern Agriculture, Key Laboratory for Enhancing Resource Use Efficiency of Crops in South China, Ministry of Agriculture and Rural Affairs, College of Life Sciences, South China
Thermo-sensitive genic male sterile (TGMS) lines are the core of two-line hybrid rice (Oryza sativa). However, elevated or unstable critical sterility-inducing temperatures (CSITs) of TGMS lines are bottlenecks that restrict the development of two-line hybrid rice. However, the genes and molecular mechanisms controlling CSIT remain unknown.
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