# Unraveling Advances in Rice Male Sterility Systems: From Genetic Basis to Hybrid Breeding Innovation

**Authors:** Wei Liu, Jinlong Ni, Changkai Ma, Jianbo Yang, Shimei Wang, Deze Xu

PMC · DOI: 10.3390/plants15030507 · Plants · 2026-02-06

## TL;DR

This paper reviews the genetic systems behind rice male sterility and their role in hybrid rice breeding, aiming to improve food security through better breeding technologies.

## Contribution

The paper provides a comprehensive review of recent advances in rice male sterility systems and their implications for hybrid breeding innovation.

## Key findings

- Cytoplasmic and genic male sterility systems are central to hybrid rice breeding.
- Recessive environment-sensitive genic male sterility enables the two-line hybrid rice system.
- Transgenic approaches are being explored to improve stability in hybrid rice production.

## Abstract

Heterosis is a landmark innovation in modern agriculture, which has been widely exploited to boost crop productivity. As a staple food for over half of the global population, rice depends heavily on heterosis for yield improvement. Notably, hybrid rice has made remarkable contributions to global food security over the past several decades. Male sterility serves as the fundamental basis for efficient hybrid rice breeding, with cytoplasmic male sterility (CMS) and genic male sterility (GMS) as the core systems employed in practical production. CMS, induced by mitochondrial genes, can be restored to fertility by nuclear restorer genes, thereby forming the essential genetic basis for the three-line hybrid rice system. GMS, mainly regulated by the nuclear genome, includes dominant and recessive nuclear sterility. Specifically, recessive environment-sensitive genic male sterility (EGMS) has facilitated the development of the two-line hybrid rice system for commercial hybrid seed production. The third-generation hybrid rice technology (TGHRT) is a transgenic approach developed for propagating stable recessive GMS lines. This review comprehensively summarizes the latest advances in rice male sterility systems, focusing on their genetic classification, origin, and molecular mechanisms. It further analyzes their application status, inherent limitations, future research directions, and development trends in hybrid rice production, aiming to deepen our understanding of the innovation and optimization of hybrid rice breeding technologies.

## Full-text entities

- **Diseases:** GMS (MESH:D007248), sterility (MESH:D007246)
- **Species:** Oryza sativa (Asian cultivated rice, species) [taxon 4530]

## Full text

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## Figures

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## References

167 references — full list in the complete paper: https://tomesphere.com/paper/PMC12899806/full.md

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Source: https://tomesphere.com/paper/PMC12899806