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A two-step self-pollination mechanism maximizes fertility in Brassicaceae

Pu Liu, Xin Quan, Zihan Song, Wenhao Li, Yuan Wang, Hongya Gu, Daoxin Xie, Wei‐Cai Yang, Thomas Dresselhaus, Sheng Zhong, Li‐Jia Qu

2025Cell9 citationsDOIOpen Access PDF

Abstract

Self-pollination in self-compatible plant species often occurs prior to flower opening. By tracking the temporal progress of pollination in Arabidopsis, we observed that pollen predominantly targets the lateral region of the stigma in unopened flowers. Notably, approximately 7 h after flower opening, flowers close, thereby pressing anthers toward the central region of the stigma for a second self-pollination. This two-step self-pollination results in a doubling of pollen deposition, which significantly increases the ovule-targeting ratio and improves fertility under pollen-limiting conditions, as evident in the anther-dehiscence-defective mutant myb108 and under environmental stress conditions. Analysis using gamete-interaction-defective mutants hap2/gcs1 and dmp8 dmp9 revealed that the timely separation of both pollination events promotes fertilization recovery efficiency. A similar two-step pollination was observed in two other self-pollinating but not in outcrossing Brassicaceae species. This mechanism represents a reproductive assurance strategy in predominantly self-pollinating annuals to maximize fertility under unfavorable conditions.

Topics & Concepts

BiologyBrassicaceaePollinationMechanism (biology)FertilityBotanyPollenPopulationPhysicsSociologyDemographyQuantum mechanicsPlant and animal studiesPlant Reproductive BiologyPlant Parasitism and Resistance