4.8 Article

CPR5-mediated nucleo-cytoplasmic localization of IAA12 and IAA19 controls lateral root development during abiotic stress br

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NATL ACAD SCIENCES
DOI: 10.1073/pnas.2209781120

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abiotic stress; auxin signaling; lateral root development; nucleo-cytoplasmic translocation

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The plasticity of root system architecture is crucial for plants to adapt to different environmental stresses, mainly regulated by the phytohormone auxin. Lateral root development, which is controlled by auxin signaling, plays a major role in root system architecture. This study reveals that the nucleo-cytoplasmic distribution of the negative regulators of auxin signaling, IAA12 and IAA19, determines lateral root development under various abiotic stress conditions. The cytoplasmic localization of IAA12 and IAA19 enforces auxin signaling output and promotes lateral root development.
Plasticity of the root system architecture (RSA) is essential in enabling plants to cope with various environmental stresses and is mainly controlled by the phytohormone auxin. Lateral root development is a major determinant of RSA. Abiotic stresses reduce auxin signaling output, inhibiting lateral root development; however, how abiotic stress translates into a lower auxin signaling output is not fully understood. Here, we show that the nucleo-cytoplasmic distribution of the negative regulators of auxin signaling AUXIN/INDOLE-3-ACETIC ACID INDUCIBLE 12 (AUX/IAA12 or IAA12) and IAA19 determines lateral root development under various abiotic stress conditions. The cytoplasmic localization of IAA12 and IAA19 in the root elongation zone enforces auxin signaling output, allowing lateral root development. Among components of the nuclear pore complex, we show that CONSTITUTIVE EXPRESSOR OF PATHOGENESIS-RELATED GENES 5 (CPR5) selectively mediates the cytoplasmic translocation of IAA12/19. Under abiotic stress conditions, CPR5 expression is strongly decreased, result-ing in the accumulation of nucleus-localized IAA12/19 in the root elongation zone and the suppression of lateral root development, which is reiterated in the cpr5 mutant. This study reveals a regulatory mechanism for auxin signaling whereby the spatial distribution of AUX/IAA regulators is critical for lateral root development, especially in fluctuating environmental conditions.

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