PIF transcriptional regulators are required for rhythmic stomatal movements

Rovira, Arnau; Veciana, Nil; Basté-Miquel, Aina; Quevedo, Martí; Locascio, Antonella; Yenush, Lynne; Toledo-Ortiz, Gabriela; Leivar, Pablo; Monte, Elena

doi:10.1038/s41467-024-48669-4

Cited by 2 publications

References 83 publications

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Integration of light quality signals regulates ABA abundance and stomatal movements during seedling establishment

Gustavsson,

Hill,

Franklin

et al. 2024

Preprint

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Obtaining sufficient light for photosynthesis and avoiding desiccation are two key challenges faced by seedlings during early establishment. Perception of light quality via specialised photoreceptors signals the availability of sunlight for photosynthesis. Canopy shade is depleted in red (R) and enriched in far-red (FR) light, lowering R:FR ratio, while direct sunlight and sunflecks contain UV-B. The balance of these wavelengths can determine the developmental strategy adopted by seedlings to either avoid shade, via stem elongation, or promote the expansion of photosynthetic organs. How seedlings regulate stomatal movements in different light environments is poorly understood. Using FR and UV-B supplementation to mimic aspects of canopy shade and sunlight respectively, we monitored stomatal apertures in Arabidopsis thaliana cotyledons. We show that low R:FR inhibits stomatal opening via a mechanism involving PHYTOCHROME INTERACTING FACTOR 4 (PIF4) and increased abscisic acid (ABA). In contrast, UV-B perceived by the UV RESISTANCE LOCUS 8 (UVR8) photoreceptor antagonises this response to promote stomatal opening in a response requiring phototropin photoreceptors. The convergence of phytochrome and UVR8 signalling to control ABA abundance enables plants to coordinate stem elongation and water use during seedling establishment in dynamic light environments.

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Integration of light quality signals regulates ABA abundance and stomatal movements during seedling establishment

Gustavsson,

Hill,

Franklin

et al. 2024

Preprint

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Molecular Mechanisms for Regulating Stomatal Formation across Diverse Plant Species

Zhou,

Liu,

Wang

et al. 2024

IJMS

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Plant stomata play a crucial role in photosynthesis by regulating transpiration and gas exchange. Meanwhile, environmental cues can also affect the formation of stomata. Stomatal formation, therefore, is optimized for the survival and growth of the plant despite variable environmental conditions. To adapt to environmental conditions, plants open and close stomatal pores and even regulate the number of stomata that develop on the epidermis. There are great differences in the leaf structure and developmental origin of the cell in the leaf between Arabidopsis and grass plants. These differences affect the fine regulation of stomatal formation due to different plant species. In this paper, a comprehensive overview of stomatal formation and the molecular networks and genetic mechanisms regulating the polar division and cell fate of stomatal progenitor cells in dicotyledonous plants such as Arabidopsis and Poaceae plants such as Oryza sativa and Zea mays is provided. The processes of stomatal formation mediated by plant hormones and environmental factors are summarized, and a model of stomatal formation in plants based on the regulation of multiple signaling pathways is outlined. These results contribute to a better understanding of the mechanisms of stomatal formation and epidermal morphogenesis in plants and provide a valuable theoretical basis and gene resources for improving crop resilience and yield traits.

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PIF transcriptional regulators are required for rhythmic stomatal movements

Cited by 2 publications

References 83 publications

Integration of light quality signals regulates ABA abundance and stomatal movements during seedling establishment

Integration of light quality signals regulates ABA abundance and stomatal movements during seedling establishment

Molecular Mechanisms for Regulating Stomatal Formation across Diverse Plant Species

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