ZmGI2 regulates flowering time through multiple flower development pathways in maize

GIGANTEA (GI) encodes a component of the circadian clock core oscillator and has been identified as a regulatory pathway of the circadian rhythm and photoperiodic flowering in model plants. However, the regulatory pathway of GI affecting flowering time is unknown in maize. Here, we identified that t...

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Published in:Plant science (Limerick) 2023-07, Vol.332, p.111701-111701, Article 111701
Main Authors: Li, Zhimin, Gao, Fengran, Liu, Yajing, Abou-Elwafa, Salah Fatouh, Qi, Junlong, Pan, Haibo, Hu, Xiaomeng, Ren, Zhenzhen, Zeng, Haixia, Liu, Zhixue, Zhang, Dongling, Xi, Zhangying, Liu, Tianxue, Chen, Yanhui, Su, Huihui, Xiong, Shuping, Ku, Lixia
Format: Article
Language:English
Subjects:
Arabidopsis - genetics
Circadian clock
Circadian Rhythm - genetics
Floral transition
Flower development
Flowers
Gene Expression Regulation, Plant
Photoperiod
Zea mays
Zea mays - metabolism
ZmGI2
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Summary:GIGANTEA (GI) encodes a component of the circadian clock core oscillator and has been identified as a regulatory pathway of the circadian rhythm and photoperiodic flowering in model plants. However, the regulatory pathway of GI affecting flowering time is unknown in maize. Here, we identified that the zmgi2 mutant flowered earlier than the wild type under long day (LD) conditions, whereas the difference in flowering time was not apparent under short day (SD) conditions. The 24 h optimal expression of the gene in the stem apex meristems (SAM) appeared at 9 h after dawn under LD conditions and at 11 h after dawn under SD conditions. DAP-Seq and RNA-Seq further revealed that ZmGI2 delays flowering by directly binding to the upstream regions of ZmVOZs, ZmZCN8 and ZmFPF1 to repress the expression of these genes and by directly binding to the upstream regions of ZmARR11, ZmDOF and ZmUBC11 to promote the expression of these genes. The genetic and biochemical evidence suggests a model for the potential role of ZmGI2 in regulating the flowering time-dependent photoperiodic pathway. This study provides novel insights into the function of ZmGIs in maize and further demonstrates their potential importance for floral transition. These results contribute to a comprehensive understanding of the molecular mechanisms and regulatory networks of GI transcription factors in regulating flowering time in maize. •We identified a Ds insertion mutant zmgi2.•zmgi2 mutant flowered earlier under long day (LD) conditions.•ZmGI2 delays flowering by directly repressing the expression of ZmVOZs, ZmZCN8 and ZmFPF1.•ZmGI2 delays flowering by directly promoting the expression of ZmARR11, ZmDof and ZmUBC11.
ISSN:0168-9452
1873-2259
DOI:10.1016/j.plantsci.2023.111701