Polarly localized Bro1 domain proteins regulate PIN-FORMED abundance and root gravitropic growth in Arabidopsis

• Published in: Communications biology Vol. 7; no. 1; pp. 1085 - 12
• Main Authors: Peng, Yakun, Ji, Kangkang, Mao, Yanbo, Wang, Yiqun, Korbei, Barbara, Luschnig, Christian, Shen, Jinbo, Benková, Eva, Friml, Jiří, Tan, Shutang
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 04.09.2024; Nature Publishing Group; Nature Portfolio
• Subjects: 14/35; 38/39; 38/77; 631/449/1741/1576; 631/449/448/2652; Arabidopsis; Arabidopsis - genetics; Arabidopsis - growth & development; Arabidopsis - metabolism; Arabidopsis Proteins - genetics; Arabidopsis Proteins - metabolism; Auxins; Biomedical and Life Sciences; Developmental plasticity; Epidermis; Gene Expression Regulation, Plant; Genetic analysis; Gravitropism - genetics; Indoleacetic Acids - metabolism; Life Sciences; Mutants; Mutation; Nutrient availability; Phenotypes; Plant Roots - growth & development; Plant Roots - metabolism; Protein transport; Proteins; Transcriptomes
• ISSN: 2399-3642; 2399-3642
• DOI: 10.1038/s42003-024-06747-9

The developmental plasticity of the root system plays an essential role in the adaptation of plants to the environment. Among many other signals, auxin and its directional, intercellular transport are critical in regulating root growth and development. In particular, the PIN-FORMED2 (PIN2) auxin exporter acts as a key regulator of root gravitropic growth. Multiple regulators have been reported to be involved in PIN2-mediated root growth; however, our information remains incomplete. Here, we identified ROWY Bro1-domain proteins as important regulators of PIN2 sorting control. Genetic analysis revealed that Arabidopsis rowy1 single mutants and higher-order rowy1 rowy2 rowy3 triple mutants presented a wavy root growth phenotype. Cell biological experiments revealed that ROWY1 and PIN2 colocalized to the apical side of the plasma membrane in the root epidermis and that ROWYs are required for correct PM targeting of PIN2. In addition, ROWYs also affected PIN3 protein abundance in the stele, suggesting the potential involvement of additional PIN transporters as well as other proteins. A global transcriptome analysis revealed that ROWY genes are involved in the Fe 2+ availability perception pathway. This work establishes ROWYs as important novel regulators of root gravitropic growth by connecting micronutrient availability to the proper subcellular targeting of PIN auxin transporters. A study on the PIN2 auxin exporter identifies the ROWY BRO1-domain proteins as important regulators of PIN2 sorting control as well as PIN3 abundance, which both affect auxin transport.